STEM and our future transportation leaders [2016]

GEORGIA DOT RESEARCH PROJECT 14-08 FINAL REPORT
STEM AND OUR FUTURE TRANSPORTATION LEADERS
OFFICE OF RESEARCH 15 KENNEDY DRIVE
FOREST PARK, GA 30297-2534

STEM and Our Future Transportation Leaders

STEM and Our Future Transportation Leaders
GDOT Research Project No. RP 14-08
Final Report
STEM AND OUR FUTURE TRANSPORTATION LEADERS
By Adjo Amekudzi-Kennedy, Ph.D., Margaret-Avis Akofio-Sowah, Ph.D., Stefanie Brodie, Ph.D.,
Yanzhi (Ann) Xu, Ph.D., Audrey Leous, Valerie Curtis Name of Contractor:
Georgia Tech Research Corporation Contract with:
Georgia Department of Transportation In cooperation with:
U.S. Department of Transportation Federal Highway Administration
February 2016
The contents of this report reflect the views of the author(s) who is (are) responsible for the facts and the accuracy of the data presented herein. The contents do not necessarily reflect the official views or policies of the Georgia Department of Transportation or of the Federal Highway Administration. This report does not constitute a standard, specification, or regulation.

STEM and Our Future Transportation Leaders

STEM and Our Future Transportation Leaders

1.Report No.: FHWA-GA-14-08

2. Government Accession No.:

3. Recipient's Catalog No.:

4. Title and Subtitle:
STEM and Our Future Transportation Leaders

5. Report Date: February 10, 2016
6. Performing Organization Code:

7. Author(s): Adjo Amekudzi-Kennedy, Ph.D., Margaret-Avis Akofio-Sowah, Ph.D., Stefanie Brodie, Ph.D., Yanzhi (Ann) Xu, Ph.D.; Audrey Leous, and Valerie Curtis

8. Performing Organ. Report No.:

9. Performing Organization Name and Address:
Georgia Tech Research Corporation 505 10th Street Atlanta, GA 30318

10. Work Unit No.: 11. Contract or Grant No.:

12. Sponsoring Agency Name and Address:
Georgia Department of Transportation Office of Research 15 Kennedy Drive Forest Park, GA 30297-2534

13. Type of Report and Period Covered: 14. Sponsoring Agency Code:

15. Supplementary Notes:
Prepared in cooperation with the U.S. Department of Transportation, Federal Highway Administration.

16. Abstract:
Between 2012 to 2022, 40 to 50 percent of the transportation workforce is expected to retire taking valuable knowledge with them. State Departments of Transportation (DOT) are expected to play a significant role in replenishing the workforce pipeline by raising awareness about transportation careers, providing internship and apprenticeship opportunities, supporting workforce development programs and research, implementing mentoring programs for new workers and emerging leaders, and supporting partnerships with education and workforce organizations. STEM development is considered a critical priority in the state of Georgia and the nation at large to preserve science and technology efficacy and promote economic competitiveness. This report reviews state DOT

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involvement in transportation-related science, technology, engineering and mathematics (STEM) outreach programs and identifies opportunities to engage kindergarten through high school (K-12) students in STEM programs to enhance their interest in the transportation field. Both theory and empirical evidence show that STEM has academic and behavioral benefits, and that students exposed to STEM are more likely to choose a career in STEM. Information on DOT involvement in STEM programs was gathered from the literature, DOT and other websites; a targeted online survey administered to DOTs and University Transportation Centers that have hosted STEM outreach programs; and semi-structured phone interviews conducted with selected survey respondents to gather additional information on their programs. Results show that over 40% of state DOTs are involved in K-12 STEM outreach programs: most commonly residential or non-residential summer programs, teacher training and curriculum development programs, internship and shadow opportunities, one-day STEM awareness events, and periodic employee visits to schools to present on transportation-STEM. A business case analysis conducted shows that agencies will benefit from including both longer-term and shorter-term alternatives in their STEM programming to cultivate STEM efficacy and build long-term relationships with a smaller percentage of students while increasing STEM awareness broadly among K- 12 students. Such strategic programming will contribute to developing a pool of students for future recruitment to replenish the transportation workforce, while enhancing STEM culture within the agency.

17. Key Words: transportation, STEM, education, K-12, pipeline replenishment

18. Distribution Statement:

19. Security Classification (of this report): Unclassified

20. Security Classification
(of this page): Unclassified

Form DOT 1700.7 (8-69)

21. Number of Pages:
82

22. Price:

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Table of Contents List of Tables ..............................................................................................................vii List of Figures .............................................................................................................vii Executive Summary.....................................................................................................ix Acknowledgements .....................................................................................................x 1 Introduction, Objectives and Report Organization................................................1 2 Overview of State DOT Involvement in STEM Programs .......................................5
2.1 Results from the Literature & Website Reviews ..............................................5 2.2 Results of Survey of STEM Outreach Programming with DOT Involvement....7 2.3 Highlighted Programs ..................................................................................10
2.3.1 STI/California DOT (Caltrans) Summer Transportation Institute ...........10 2.3.2 AASHTO TRAC & RIDES PROGRAM/LADOTD TRAC & RIDES................12 2.3.3 Internship & Shadow Programs/MnDOT Phoenix Internship Program ..13 2.3.4 One-Day STEM Awareness Workshops/Various Examples...................14 2.3.5 Speakers' Bureau/Kentucky Engineering Exposure Network (KEEN)...15 2.4 Assessing the Impact of STEM Outreach Programs ......................................15 2.5 Summary ......................................................................................................16 3 Review of STEM in Georgia .................................................................................17 3.1 STEM Goals in Georgia ................................................................................17 3.2 STEM Certification in Georgia......................................................................18 3.3 Integrated STEM Curriculum in Georgia ......................................................18 3.4 STEM Education Awareness Events..............................................................20 3.5 Resources to Support STEM Development ...................................................21 3.6 STEM Initiatives at Universities and Professional Organizations ..................23 3.6.1 STEM Initiatives at CEISMC ...................................................................23 3.6.2 STEM at Universities and Colleges in Georgia ......................................24 3.6.3 STEM Initiatives with the Involvement of Professional Organizations ....27 3.7 Implications for Effective STEM Programming at GDOT ..............................28 4 Review of STEM in Georgia Department of Transportation .................................31 4.1 Panel Meeting Outcomes..............................................................................31 4.1.1 GDOT Involvement in STEM Outreach Programs ..................................31
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4.1.2 Panel Discussion of STEM Alternatives ..................................................32 4.2 GDOT Employee Survey and Results ...........................................................33 4.3 District-Level STEM Activities.......................................................................37 4.4 Opportunities for STEM in GDOT .................................................................38 4.5 Summary ......................................................................................................39 5 STEM Program Alternatives: Business Case Analysis..........................................41 5.1 Introduction ..................................................................................................41 5.2 Georgia Tech Summer Transportation Institute (GTSTI)...............................41
5.2.1 Program Description .............................................................................42 5.2.2 Program Administration ........................................................................44 5.2.3 Resources Required ..............................................................................44 5.2.4 Resources Available ..............................................................................44 5.2.5 Benefits to Agency.................................................................................44 5.3 AASHTO TRAC & RIDES................................................................................45 5.3.1 Program Description .............................................................................45 5.3.2 Resources Required ..............................................................................46 5.3.3 Resources Available ..............................................................................47 5.3.4 Benefits to Agency.................................................................................47 5.4 Internship/Shadow Program ........................................................................47 5.4.1 Program Description .............................................................................47 5.4.2 Resources Required ..............................................................................49 5.4.3 Resources Available ..............................................................................50 5.4.4 Benefits to Agency.................................................................................50 5.5 One-Day STEM Awareness Events ...............................................................50 5.5.1 Program Description .............................................................................50 5.5.2 Resources Required ..............................................................................53 5.5.3 Resources Available ..............................................................................54 5.5.4 Benefits to Agency.................................................................................54 5.6 Speaker's Bureau/School Visits ....................................................................54 5.6.1 Program Description .............................................................................54 5.6.2 Resources Required ..............................................................................56
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5.6.3 Benefits to Agency.................................................................................56 5.7 Benefits and Costs of Programs ....................................................................56 6 Conclusions, Recommendations & Implementation Guidance ............................60 6.1 Conclusions and Recommendations.............................................................60 6.2 Implementation Guidance ............................................................................63 References .................................................................................................................65
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List of Tables
Table 1 Examples of STEM initiatives in Georgia (Race to the Top Innovation Fund).21 Table 2 STEM programs in universities and colleges in Georgia...............................26 Table 3 STEM initiatives of major professional organizations.....................................27 Table 4 GT STI - Example program schedule.............................................................43 Table 5 Cost of TRAC and RIDES modules (2015).......................................................46 Table 6 Student incentivizing activities for STEM Day Fair.........................................51 Table 7 Schedule for Introduce a Child to Transportation..........................................52 Table 8 Schedule for Transportation Day ...................................................................53 Table 9 Sample program layout .................................................................................55 Table 10 Benefits and costs of STEM program alternatives ........................................57
List of Figures
Figure 1 Number of Programs with DOT Involvement from Preliminary Search .........5 Figure 2 Target Audiences of 47 STEM Programs from Preliminary Search ................6 Figure 3 Program Duration of 33 STEM Programs from Preliminary Search................6 Figure 4 Partner Organizations for 69 Programs from Preliminary Search..................7 Figure 5 Number of programs with DOT involvement from Online Survey.................8 Figure 6 Target Audiences of 43 STEM Programs from Survey ...................................8 Figure 7 Program Duration of 43 STEM Programs from Survey ...................................9 Figure 8 Financial Support of 43 STEM Programs from State DOTs ...........................10 Figure 9 STEM activities in which employees have participated through GDOT .......34 Figure 10 Interest in participating in STEM outreach programs through GDOT ........35 Figure 11 Interest in potential GDOT STEM outreach activities..................................35 Figure 12 Types of outreach activities that GDOT employees participate in..............36 Figure 13 Frequency of participation in outreach activities .......................................37 Figure 14 Interest in serving on an advisory or planning board for GDOT STEM programming .............................................................................................................37 Figure 15 Methods for informing GDOT employees of STEM outreach opportunities 39 Figure 16 Proposed program structure ......................................................................55
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Executive Summary
In the decade from 2012 to 2022, 40 to 50 percent of the transportation workforce is expected to retire taking valuable knowledge with them. State Departments of Transportation (DOT) are expected to play a significant role in efforts to replenish the workforce pipeline by raising awareness about transportation careers, providing internship and apprenticeship opportunities, supporting workforce development programs and research, implementing mentoring programs for new workers and emerging leaders, and supporting partnerships with education and workforce organizations. This report reviews state DOT involvement in transportation-related science, technology, engineering and mathematics (STEM) outreach programs and identifies opportunities to engage kindergarten through high school (K-12) students in STEM programs to enhance their interest in the transportation field.
Information on DOT involvement in STEM programs was gathered from the literature, DOT and other websites; a targeted online survey administered to DOTs and University Transportation Centers that have hosted STEM outreach programs; and semi-structured phone interviews conducted with selected survey respondents to gather additional information on their programs. Results show that over 40% of state DOTs are involved in K-12 STEM outreach programs: most commonly residential or non-residential summer programs, teacher training and curriculum development programs, internship and shadow opportunities, one-day awareness events, and periodic employee visits to schools to present on transportation STEM.
A business case analysis, together with STEM theory and existing empirical evidence, shows that agencies will benefit from both longer-term and shorter-term alternatives in their STEM programming to cultivate STEM efficacy and build longterm relationships with a smaller percentage of students while increasing STEM awareness broadly among K-12 students. Such strategic programming will contribute developing a pool of students for future recruitment to replenish the transportation workforce while cultivating STEM culture within the agency.
The National Academy of Sciences views STEM education and development as essential to preserve the nation's science and technology leadership, and a strategic and economic security initiative to optimize the nation's knowledge-based resources by sustaining the most fertile environment for new and revitalized industries and their associated well-paying jobs. The Georgia Department of Education (GDOT) considers STEM education an economic imperative and workforce development issue for Georgia and America. Based on these national and statewide strategic priorities, GDOT must view STEM investments as aligning not only with agency strategic objectives for workforce development and replenishment, but also as a means to advance Georgia's science and technology efficacy and economic development.
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Acknowledgements
The research presented in this report was sponsored by the Georgia Department of Transportation through research project RP 14-08: STEM and Our Future Transportation Leaders. The research team would like to acknowledge the following individuals for their important contributions to the project through the GDOT STEM Advisory Panel: Genetha Rice-Singleton, Paul DeNard and Jeff Conrad. The team would also like to acknowledge Tara Rabinek, Graduate Student at Georgia Institute of Technology, for her contributions to this study. The researchers remain exclusively responsible for the contents of this report.
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1 Introduction, Objectives and Report Organization
With the movement of the "Baby Boomer" generation into retirement, an estimated 40 to 50 percent of the transportation workforce is expected to retire by 2022, taking with them valuable specialized knowledge and historical perspectives (CUTC, 2012; Ivey et al., 2014). At a National Transportation Workforce Summit in 2012, the Council of University Transportation Centers (CUTC) determined that State Departments of Transportation (DOTs) have a significant role to play in feeding the workforce pipeline by raising awareness about transportation careers, providing internship and apprenticeship opportunities, supporting workforce development programs and research, implementing mentoring programs for new workers and emerging leaders, and supporting partnerships with education and workforce organizations (CUTC, 2012).
This research was sponsored by the Georgia Department of Transportation (GDOT) to identify opportunities to engage K-12 students in STEM (Science, Technology, Engineering and Mathematics) programs and enhance their interest in careers in transportation. STEM education, in Georgia, is defined as "an integrated curriculum (as opposed to science, technology, engineering, and mathematics taught in isolation) that is driven by problem solving, discovery, exploratory project/problem-based learning, and student-centered development of ideas and solutions" ("STEM Georgia", n.d.).
STEM education has received increasing attention over the past decade and remains a national priority in the U.S. (National Academies, 2014). In response to a request from the nation's Congress in the mid-2000s, the National Academies identified actions that federal policy-makers could take to enhance the U.S. science and technology enterprise to enable the nation to successfully compete, prosper and be secure in the global community of the 21st Century. In the report: Rising Above the Gathering Storm, STEM education was not only viewed with urgency as essential to preserve the nation's science and technology leadership, but also as a strategic and economic security initiative to optimize the nation's knowledge-based resources by sustaining the most fertile environment for new and revitalized industries and their associated well-paying jobs (National Academies, 2007).
Many arguments have been advanced for exposing children to fields like transportation that are in the STEM pathway at younger ages (Swift & Watkins, 2004; Russell et al., 2007; DeJarnette, 2012). Researchers have shown that during the early years, there is a higher potential to build a child's confidence and self-efficacy relative to their ability to succeed in STEM fields, and that an early interest in pursuing science and engineering is a better indicator of whether a student will pursue a career in these fields than a student's grade in school ("Afterschool", 2011).
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Furthermore, there is evidence that STEM out-of-school time (OST) programs that engage students for longer periods of time (e.g., summer programs) hold greater potential for affecting intermediate and long-term outcomes than do short-duration programs. STEM OST programs are designed to supplement school work, ignite student interest, and extend STEM learning. Program outcomes include STEM awareness and interest, positive attitudes toward STEM fields and careers, programspecific knowledge and skills, continued participation in STEM programs, STEM selfefficacy, STEM course taking, STEM degree pursuit and STEM learning and achievement (Dorsen at al., 2006; Wilkerson & Haden, 2014).
Evaluation of STEM programs in the afterschool (i.e., before school, after school and summer learning opportunities) show that participants are more likely to pursue higher education and study STEM fields. For example, 69% of students reported an increased interest in STEM careers as a result of their participation in FIRST (For Inspiration and Recognition of Science and Technology), a STEM OST that provides several leagues in which K-12 student teams compete in robotics. Moreover, 89% reported an increased interest in science and technology generally, 89% reported increased self-confidence, and 70% reported an increased motivation to do well in school as a result of their participation in FIRST. The benefits of afterschool programs are generally well documented, showing positive impacts on both academic and behavioral development ("Afterschool", 2011)
Beyond empirical evidence, the literature shows there is a theoretical basis for investing in STEM enrichment experiences. Funded by the National Science Foundation, the ITEST Learning Resource Center at the Education Development Center in Waltham, MA, commissioned a literature review in order to better understand the pathway for students from early exposure to STEM experiences to pursuing a STEM career. The study focused on OST activities in informal environments. The study reiterates that young people cannot choose a specific STEM career or field of study if they do not know of its existence: lack of knowledge of STEM careers may be one reason why students choose non-STEM careers (Dorsen et al., 2006).
Furthermore, the ITEST study references Super's Career Development Theory (1957) that divides career development into stages roughly corresponding to age: young people pass from the growth state to the exploratory state during their teenage years, and eventually into the establishment stage. As young people begin to make choices about their futures, one way to make sense of their decisions is using the Possible Selves Theory. "Possible Selves" are positive or negative visions of what one might become and people tend to make decisions in order to work toward what they would like to be, and avoid what they fear. Thus, if girls and boys cannot envision themselves as scientists or engineers, they will not make the choices necessary to pursue STEM fields, such as enrolling in advanced mathematics, for example. The study also
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references Social Cognitive Career Theory (SCCT). SCCT suggests that three personal factors -- self-efficacy, outcome expectations, and interests -- operate together and interact with external barriers and supports to inform a person's career goals and actions (Dorsen et al., 2006).
Thus, a lack of knowledge of STEM fields and STEM role models, and a lack of STEM self-efficacy are key factors preventing students from pursuing STEM fields and choosing STEM careers. State DOTs can therefore contribute to the development of the transportation workforce pipeline by participating in and supporting kindergarten through high school (K-12) STEM outreach programs and infusing transportation applications into activities, partnering with education and workforce development organizations that run these kinds of programs, or even providing internship and apprenticeship opportunities where possible.
This report presents the findings of a study to identify STEM outreach opportunities with state DOT involvement and conduct a business case analysis on practical program alternatives to introduce and interest K-12 students in the field of transportation. A literature review, including a review of websites, was conducted to characterize DOTs' participation in STEM outreach programs nationwide. The findings were used to develop a survey that was distributed to selected DOTs to gather additional information on their STEM outreach programs. Case studies were then developed to characterize the range of STEM outreach programs found in the state DOTs. Five main program categories were identified as follows: (1) residential or non-residential summer programs, e.g., the National Summer Transportation Institute; (2) Teachertraining and curriculum development programs, e.g., AASHTO's TRAC and RIDES program; (3) Internships and shadow programs (4) One-day high publicity STEM awareness workshops; and (5) Speaker's Bureau involving DOT employee visits to schools.
Simultaneously, a review of STEM activity and programming in Georgia was conducted through data gathering from websites and the 2014 first annual STEM Conference in Georgia. Subsequently, a panel meeting was organized with GDOT officials to characterize the nature and scope of STEM activity within the agency, followed by a survey of GDOT employees to assess their interests in participating in a range of STEM programs. The results of these activities were used in conducting a business case analysis of the five STEM program alternatives identified and developing recommendations to guide STEM programming, and cultivate a culture of STEM engagement at GDOT.
Following this introduction, Chapter 2 presents a synthesis of the literature review and survey findings on STEM programming activity at state DOTs. Chapter 3 reviews STEM initiatives in Georgia and Chapter 4 reviews STEM initiatives at the Georgia Department of Transportation. Chapter 5 presents the results of a business case
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analysis for the five STEM program alternatives identified, and Chapter 6 concludes with recommendations and guidance for implementing a STEM program at GDOT to replenish the pipeline of retiring professionals while promoting a culture of STEM engagement within the agency.
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2 Overview of State DOT Involvement in STEM Programs
This chapter presents an overview of state DOT involvement in STEM outreach programming, highlighting a selection of programs from various agencies, and the value of increased investment in STEM programs. A preliminary search was conducted for information on state DOT participation in STEM outreach programs in literature and from DOT websites. In the second phase of the study, an online survey (Appendix A) was distributed to DOTs with present or past STEM programs identified through the preliminary search. Based on a finding that most DOTs partner with universities, colleges and University Transportation Centers (UTCs) to conduct STEM programs, a second online survey (Appendix B) was distributed to UTCs to gather more information on these outreach programs. For a number of programs considered potentially good case studies, additional information was gathered through phone interviews. The programs identified were limited to those officially affiliated with the state DOT. Isolated events such as employee participation in career fairs were excluded unless the agency played a significant role in planning the event.
2.1 Results from the Literature & Website Reviews
A total of 57 programs were identified from 26 DOTs, with Illinois, Texas, Idaho, and Arizona DOTs having the most number of programs, as shown in Figure 1.
Figure 1 Number of Programs with DOT Involvement from Preliminary Search
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Almost half (47%) of the programs identified target high school students, compared to 38% targeting middle school students and 15% targeting elementary school students, as shown in Figure 2.
Figure 2 Target Audiences of 47 STEM Programs from Preliminary Search Figure 3 shows the duration of 33 of the programs identified, varying from a few hours to more than six months. Almost half (43%) of the programs are two to four week programs usually occurring over the summer months.
Figure 3 Program Duration of 33 STEM Programs from Preliminary Search 6

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Programs lasting up to one day include workshops such as Utah DOT's Girls in Transportation Workshop, while programs that have an estimated duration of 6 months are mostly competitions such as West Virginia DOT's West Point Bridge Design Competition that engage student teams throughout most of the school year. Most of the programs identified involved more than one partner organization with the highest representation from research institutions (UTCs) and universities and colleges, as shown in Figure 4.
Figure 4 Partner Organizations for 69 Programs from Preliminary Search These results from the preliminary literature and website reviews indicate that DOTs around the country are involved in quite a number of STEM outreach programs, although comprehensive information on the programs is not very readily available.
2.2 Results of Survey of STEM Outreach Programming with DOT Involvement
Similarly, online surveys, distributed to the 26 DOTs identified in the preliminary searches as well as contacts from all UTCs in the country, identified a total of 43 programs from 22 DOTs as shown in Figure 5. Unlike the preliminary search, less than 50% of all State DOTs are represented in this dataset and the states with the most number of programs are Nevada and New Hampshire. In a similar trend to the results from the preliminary searches, most of the programs reported target high school students, with smaller percentages targeting middle and elementary school students
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(Figure 6). All the same, these results show a greater percentage of programs (67%) targeting high school students, compared to 47% from the initial search (see Figure 2).
Figure 5 Number of programs with DOT involvement from Online Survey
Figure 6 Target Audiences of 43 STEM Programs from Survey Figure 7 shows the duration of the 43 programs identified from the survey. Again, similar to the preliminary search results, program duration varies from a few hours to
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more than six months, with a significant proportion (39%) running from two to four weeks usually occurring during the summer. From the survey, there was a higher proportion (27%) of programs reported to last more than six months. Most of these programs involve transportation-related modules that are incorporated into the school curriculum, such as the AASHTO TRAC & RIDES program.
Figure 7 Program Duration of 43 STEM Programs from Survey While the surveys did not collect information on partner organizations for these programs, information was gathered on financial support (Figure 8Error! Reference source not found.), revealing that over 50% (23) of the programs receive some financial support from the DOT involved, with 9% (4) receiving in kind support. Furthermore, 9% (4) of the programs also receive financial support directly from the Federal government through the U.S. Department of Transportation (USDOT).
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Figure 8 Financial Support of 43 STEM Programs from State DOTs
The results from the preliminary searches and the survey provide a broad view of DOT involvement in K-12 STEM outreach programs; however, they are not necessarily comprehensive -- they are simply an indication of the agencies that are responsive and willing to share information about their programming. Nonetheless, these findings show that many state DOTs are involved in STEM outreach programming on some level. Appendix C provides a catalogue of STEM programs at State DOTs.
2.3 Highlighted Programs
Five main types of STEM outreach programs were identified from the literature and website review, the online surveys, and follow-up conversations with DOT representatives: the Summer Transportation Institute (STI), the AASHTO TRAC & RIDES Program; Internships and Shadow Programs; One-Day STEM Awareness workshops, and the Speakers' Bureau outreach programs. These programs are described below with examples. 2.3.1 STI/California DOT (Caltrans) Summer Transportation Institute STI programs are funded by the Federal Highway Administration (FHWA) as part of the National Summer Transportation Institute (NSTI) program. The NSTI is an educational initiative of the USDOT and the FHWA, championed by the FHWA Office of Civil Rights through its Division Offices. A number of DOTs are involved in STI programs held at universities and colleges around the country. The program was formally established in 1998, and is the first of its kind to be authorized by the nation's
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Congress under Section 1208 of the Transportation Equity Act for the 21st Century (TEA-21). The purpose of the NSTI is to promote awareness of STEM educational and career opportunities among disadvantaged and at-risk middle and high school students. FHWA Division offices oversee the program which is provided at no cost to students with a typical duration of two to four weeks. In addition to the grants from the FHWA, NSTI programs can be supported by local sponsors. In 2013, 68 grants were awarded for NSTI programs adding up to $2,773,897 in 42 states, Puerto Rico, and American Samoa. While most states had only one program, 11 had two host sites, five had three host sites, and the state of New York had four host sites. Two STIs were hosted in the state of Georgia at Albany State University and Clark Atlanta University. Grants provided by the FHWA to individual host sites ranged from $12,200 (American Samoa Department of Public Works) to $63,689 (Idaho State University).
Caltrans was involved in two Summer Transportation Institutes (STIs) in 2014. The STI at San Jose State University was organized by the Mineta Transportation Institute (MTI) as a free, four-week, non-residential program to introduce high school students (Grades 9 to 12) to transportation systems development, construction management, technology, inter-modalism, and environmental impacts. This program has been running for about twelve years with funding from Caltrans which is reimbursed by the FHWA. A Caltrans employee serves as the program contract manager and visits the campus a few times during the program. The program hosted a total of 26 high school students structured in the style and format of a pre-college internship, incorporating a college-level, three-unit, environmental education course with an emphasis on science; the equivalent of one week of aviation-oriented learning and related activities, field trips (30% of the curriculum), short talks by experts, and a job skills component.
In 2014, a second STI was held at California State University, Los Angeles. The STI at San Jose State University is structured in the style and format of a pre-college internship with an emphasis on civic leadership and public policy, which are anchoring principles of MTI. The program seeks to offer a balance between academic and field activities designed to motivate participants to expand their horizons into the field of transportation and be connected to the University in a meaningful way. It is designed to be both academically challenging and fun for participants. The 2014 program incorporated a college-level, three-unit, environmental education course with an emphasis on science, the equivalent of one week of aviation-oriented learning and related activities, field trips (30% of the curriculum), short talks by experts, and a job skills component. Overall, the program's curriculum exposes students to key components of scientific inquiry, new frontiers in some of the major transportationrelated topics of the day, and gives them the opportunity to see "behind the scenes" operations of major Bay Area transportation sites and agencies such as the San Francisco-Oakland Bay Bridge, BART, SamTrans (the San Mateo transit agency), the San Jose traffic control center and the Port of Oakland. The 2015 SJSU/MTI STI is again
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planning to offer students three college credits, the resources of a specialized teacher, and a comprehensive number of field trips.
For each program, host sites present reports to the DOT at the end of the program which include information on the program impact.
2.3.2 AASHTO TRAC & RIDES PROGRAM/LADOTD TRAC & RIDES The AASHTO TRAC and RIDES program is AASHTO's education outreach initiative which provides hands-on activities to introduce K-12 students to transportation and civil engineering. Through this program, curricula activities that are aligned with Core Curriculum Standards of Learning are provided to schools to be incorporated into their lessons. These programs are provided at no cost to schools in the state. According to the program website, 24 states participate in the program. Georgia is not a listed participant. To participate in the program, state DOTs pay an annual membership fee of $7000 to purchase the TRAC PACs and form partnerships with schools to implement the program. Volunteer transportation professionals and engineers work with teachers and students to support the lessons and can provide mentoring to the students.
TRAC stands for Transportation and Civil Engineering. The TRAC program targets middle and high school students, providing a Transportation Research Activities Center (TRAC PAC) to teachers. The most recent TRAC PAC includes eight selfcontained education modules made up of a teacher reference guide, a volunteer guidebook, a movie showing how each activity works, and supplies to perform up to 75 activities. The topics included are bridge design, highway safety, city planning, magnetic levitation, motion, environmental engineering, traffic technology, and design and construction.
RIDES stands for Roadways in Developing Elementary Students and targets K-8 students. With this program, teachers attend a two-day training session and receive a curriculum aligned with National Math and Science Standards as well as the Core Curriculum Standards. This resource also includes a trunk of materials to complete hands-on activities in the following four units: Transportation and Energy, Roadway Geometry, Humans and Nature, and Designing Ways.
As part of the TRAC & RIDES program, a National Bridge and Structure Competition is held annually for students from participating states at the AASHTO Spring Meeting in May. The competition is held in three categories by grade (7th and 8th, 9th and 10th, 11th and 12th). AASHTO offers an Adopt-A-State program for $5000, where companies can support their state's TRAC and RIDES activities.
For about three years, LADOTD has participated in AASHTO's TRAC & RIDES program by conducting two-day training workshops for upper middle and high school teachers, and elementary and lower middle school teachers, respectively. The FHWA provides
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funding to LADOTD (in addition to the agency's own funds) to sponsor the program. These funds go towards purchasing packets and supplies for schools, to be implemented in and used throughout the school-year curriculum. The modules emphasize hands-on activities to introduce students to careers associated with transportation specifically, and civil engineering, more broadly. Schools are invited to participate at no cost through a general solicitation process and many teachers attend the training after finding out by word of mouth.
Schools in Louisiana participate in the program at no cost. The TRAC packet, known as the TRAC PAC, is made up of eight self-contained modules that include a teacher reference guide, a volunteer guidebook, a movie showing how each activity works, and the supplies to perform about 75 hands-on activities. Through the activities, students design bridges, build magnetic-levitation trains, plan cities and learn about traffic technology and environmental issues that impact transportation.
Similarly, the RIDES program is provided at no cost to schools. The curriculum is aligned with the National Standards for Math and Science and 21st Century Skills and Core Curriculum Standards. The RIDES packet includes a teacher reference guide designed to encourage critical thinking and improve problem solving skills while teaching students about careers in the transportation industry.
2.3.3 Internship & Shadow Programs/MnDOT Phoenix Internship Program Several transportation agencies provide internships to students, giving them exposure to transportation careers, as well as basic job training during working hours. Internships may be paid or unpaid, part-time or full time, and may run only during the summer months or throughout the whole year. An alternative to a full-fledged internship program is a shadow program. These programs pair students with DOT staff for one week, during which the student follows individual employees throughout their workday exploring the DOT's work and the employee's role in the organization. Shadow students may be assigned to a particular division or a particular district to spend a week rotating through various functions. It is the responsibility of each division or district to expose the students to the agency and the transportation industry.
In either of these programs, each student will have a mentor who will serve as the primary point of contact. Throughout the week, however, the student will spend time with various other employees in the division. Activities during the internship or shadow program may include small-scale research projects, informational interviews with employees, assisting employees with work, and preparation for various meetings. Either model could be scaled up to increase the number of students or increase the program duration. Students who have taken basic or advanced STEM courses may be recruited from STEM schools.
For nine years, the Minnesota DOT (MnDOT) has provided year-long, paid internships for high school juniors and seniors (11th and 12th graders) enrolled in pre-engineering
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STEM and Our Future Transportation Leaders
or STEM courses. This program, the Phoenix Internship Program, is a partnership with Project Lead The Way (PLTW) high schools in Minnesota which places students in various MnDOT offices and districts throughout the state working in areas like highway design, traffic surveys, materials, and data analysis. PLTW is a nonprofit organization that provides STEM curricula and teacher training to more than 6,500 elementary, middle, and high schools in all 50 states in the nation and the District of Columbia (PLTW, 2014).
In the Phoenix program, students work full time during the summer and part-time during their senior year at a rate of about $11 per hour. Eligible applicants must have a minimum grade point average (GPA) of 3.0. On average, five to twelve students are employed in this program per year; this number is based on the needs of MnDOT district offices. While in the program, students can gain credits towards their high school graduation, if approved by the school district. Phoenix interns who choose to pursue an engineering major in colleges and universities in Minnesota may be eligible to transfer to MnDOT's student worker/internship program for college students (for up to four years), sustaining the established relationship with the department. Since the conception of this program, 21 students have transitioned into the student worker program. Eight of MnDOT's current employees are products of the Phoenix Internship Program and others currently work for private and other transportation firms like 3M.
The Phoenix Internship Program is run out of MnDOT's Office of Human Resources and recruiting staff members participate on advisory boards with PLTW and school districts. Phoenix interns also participate in additional activities such as tours, seminars, and career fairs.
2.3.4 One-Day STEM Awareness Workshops/Various Examples Many transportation agencies around the country also participate in outreach programs that are up to one full day, exposing students to transportation careers through guest speakers, hands-on activities and one-on-one interactions. Examples include Introduce a Girl to Engineering Day or DOT Career Day. Introduce a Girl to Engineering Day is an event held all around the country by different engineeringrelated organizations including the Society of Women Engineers (SWE). This program is also included as part of the National Society of Professional Engineers' (NSPE) annual Engineers Week which occurs in February. In the past, GDOT has been involved in this event hosted at the Georgia Institute of Technology. A number of DOTs also participate in Construction Career Days, as part of a national initiative developed by the FHWA. This program was born out of the need for more skilled highway construction workers. The inaugural program was held in Texas in 1999. The National Construction Career Days Center is located at the University of Rhode Island Transportation Center.
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KDOT's Aviation Division hosted a one-day career exploration workshop for high school students (11th and 12th graders) in collaboration with the Kansas Commission on Aerospace Education, the Wichita Area Technical College, and National Geographic's Emerging Explorer Barrington Irving. The program included Barrington Irving's The Flying Classroom activities, a career exploration fair with 35 aviation and STEM companies, and motivational speeches from high-profile guests such as Congressman Mike Pompeo, aviator Amelia Rose Earhart, KDOT Secretary Mike King, and KDOT Director of Aviation Jesse Romo. The program hosted over 300 students, teaching them about the options aviation has to offer and creating connections with STEM. KDOT's support of this event was primarily in-kind through time and resources. The workshop was the highlight event of a "Fly Kansas Air Tour" program in which pilots flew around the state with stops in designated towns and cities hosting smaller-scale but similar workshops on STEM careers in aviation.
2.3.5 Speakers' Bureau/Kentucky Engineering Exposure Network (KEEN) A number of DOTs support speakers' bureaus that involve sending DOT employees out to schools within their localities to give presentations on their jobs, particularly on STEM applications in their jobs, and possibly to engage students in transportationrelated demonstrations and/or hands-on activities.
The Kentucky Engineering Exposure Network (KEEN) is a program conducted as a partnership between the Kentucky Transportation Cabinet (KTC) and the Commonwealth of Kentucky's school system. It has been in place since 1991. Through the program, KTC engineers visit K-12 schools throughout the state, discussing applications of math and science in their jobs and increasing awareness of the opportunities and challenges available to students interested in STEM fields. Presentations are adapted to suit the audiences which range from elementary school through college. Through the program, engineers interact with students in their own communities at no cost to the schools. Schools can schedule presentations by contacting KEEN Coordinators located in each of the twelve district offices of the KTC. This program is reported to have reached over 70,000 students throughout the state since its implementation.
2.4 Assessing the Impact of STEM Outreach Programs
In general, some of these STEM programs have reported significant efforts to measure the impact on the students that have participated, primarily through qualitative data collection. Methods include student daily journals (free-form or with prompts), academic quizzes, weekly evaluation surveys, and pre- and post- evaluation surveys. Other less common data collection methods are focus groups and longitudinal tracking after a period of time. These methods measure program effectiveness, exposure to and understanding of STEM, transportation careers and real-world applications, and educational enrichment.
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For example, all participants (100%) of a Montana DOT STI at Montana State University agreed that they learned more about transportation careers in the end-of-program survey, while 94% reported increased understanding of the importance of various transportation modes and increased confidence in making college and career choices; and 88% agreed that the STI helped improve their problem-solving skills and helped them prepare for college (Gallagher, 2013). STI Scholars from a Texas DOT STI at Prairie View A&M University were tracked after the program, revealing that 100% of students responding to the survey were pursuing higher education, with more than 70% in STEM-related fields of study (Kommalapati et al., 2012). Similarly, the University of Memphis Transportation Engineering Careers (TREC) program tracked 44 participants after the program, finding that of the 21 students enrolled in college at the time of the survey, 90% were enrolled in a STEM major.
Appendix D provides more extensive descriptions of the assessment approaches of selected state DOT STI programs. Program effectiveness is generally measured based on program objectives, which can vary from program to program. This results in a range of subjective measures rather than objective and standardized measures for various programs around the country. While these assessment methods can depict the positive impacts of specific STEM programs, they may not be as useful for comparing the impacts of different programs with each other.
2.5 Summary
The results of the literature review and surveys indicate that a substantial number (i.e., over 40%) of state DOTs are involved in STEM programming through the National Summer Transportation Institute, AASHTO's TRAC and RIDES Program, Internship and Shadow programs, one-day STEM awareness workshops, and Speakers' Bureau programs. The literature shows evidence of multiple benefits of STEM out-of-schooltime (OST) programs including STEM efficacy, increased confidence in students and increased chances of selecting a STEM career. STEM education and development has been identified both as a national priority to increase science and technology leadership and economic competitiveness. Thus, by investing in STEM, GDOT achieves multiple benefits. Investing in STEM is one means of achieving the agency's strategic priorities on workforce development and pipeline replenishment. Furthermore, it is a means to advance Georgia's science and technology effectiveness and economic competitiveness. The next chapter describes STEM in the state of Georgia.
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STEM and Our Future Transportation Leaders
3 Review of STEM in Georgia
The Georgia Department of Education (GA DOE) is committed to preparing students for 21st Century workplace careers by providing high-quality educational opportunities in science, technology, engineering, and mathematics (STEM) fields, together with several business, industry and education partners. In Georgia, STEM education is defined as an integrated curriculum (as opposed to science, technology, engineering and mathematics taught in isolation) that is driven by problem solving, discovery, exploratory project/problem-based learning, and student-centered development of ideas and solutions (stemgeorgia.org). The GA DOE views STEM education as an economic imperative and workforce development issue for Georgia and America. At the 2014 GA STEM Forum, GA DOE STEM Coordinator Gilda Lyon noted that the demand for workers in STEM occupations is increasing at every education level, and highlighted that America will be short of 400,000 engineers, 200,000 doctors and one million nurses by 2018 (Lyon, 2014).
The President's Council of Advisors on Science and Technology (PCAST) found that economic forecasts point to a need for producing approximately 1 million more college graduates in STEM fields than expected under current assumptions, over the next decade (PCAST, 2012). This, coupled with the ongoing retirement of the Baby Boomer generation leads many to view STEM as imperative for both workforce and economic development. In Georgia, STEM is a wide-ranging curriculum reform initiative promoted by the GA DOE. PCAST found that economic forecasts point to a need for producing approximately 1 million more college graduates in STEM fields than expected under current assumptions, over the next decade (PCAST, 2012). This, coupled with the ongoing retirement of the Baby Boomer generation leads many to view STEM as imperative for both workforce and economic development.
3.1 STEM Goals in Georgia
In Georgia, the goals for STEM are to ("STEM Georgia," n.d.):
(1) Empower students to become innovators and technologically proficient problem solvers;
(2) Ensure that all students have access to the appropriate technology conducive to enhancing their learning experiences both in and outside the traditional classroom;
(3) Increase student 21st century skills and technological literacy by providing students with opportunities to use the technical tools of the STEM industry;
(4) Guide community understanding of the importance of STEM education to build capacity to sustain a viable STEM educational program and prepare students for work and life in the 21st century;
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STEM and Our Future Transportation Leaders
(5) Increase Georgia's capacity to provide high quality K-12 STEM professional learning opportunities;
(6) Nurture partnerships that allow schools and the business sector to join efforts to improve students' STEM-career opportunities, and
(7) Increase the number of students pursuing careers in STEM-related fields and/or post-secondary STEM-related education/training.
3.2 STEM Certification in Georgia
The GA DOE is working with K-12 schools to develop STEM certification for entire schools (typically at the elementary level) or programs (middle and high school levels), as well as teachers. STEM schools and programs may be exclusive, inclusive or career academies. The GA DOE conducts performance assessments to determine the extent to which schools and programs are meeting pre-defined STEM objectives.
At the 2014 GA STEM Forum held in Athens in October (first of its kind), Lyon reported that 46% (i.e., 90 out of 195) of Georgia's school districts have at least one school working on STEM certification. At the same event, Lyon and Aguilar also reported that over 400 schools are working toward STEM certification in the state of Georgia. The GA Department of Education's goal is for 100% of STEM teachers to be certified in their subject area(s), with ongoing professional learning in their content areas.
3.3 Integrated STEM Curriculum in Georgia
The National Academy of Engineering has reported that there is considerable concern among policymakers, educators, employers, and others about improving K 12 STEM education in the United States and in raising the number and quality of students who are both interested in and prepared to enter STEM and related professions. Historically, most efforts to improve STEM education at the pre-college level have focused on the individual subjects - particularly science and mathematics rather than on how or whether they can or should be connected in ways that might improve student thinking, learning, engagement, motivation, or persistence. Advocates of more integrated approaches to K12 STEM education argue that teaching STEM in a more connected manner, especially in the context of real-world issues, can make the STEM subjects more relevant to students and teachers. This in turn can enhance motivation for learning and improve student interest, achievement, and persistence. And these outcomes, advocates assert, will help address calls for greater workplace and college readiness as well as increase the number of students who consider a career in a STEM-related field (NAE, 2014).
The GA DOE has adopted an integrated approach to pre-college STEM education, and is working with K-12 schools to develop STEM certification for entire schools (typically at the elementary level) or programs (middle and high school levels), as well as teachers. STEM schools and programs may be exclusive, inclusive or career
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STEM and Our Future Transportation Leaders
academies. Exclusive STEM schools focus on STEM subjects exclusively while inclusive schools have a broader curriculum that includes STEM. Career academies are schools for special instruction or training on a particular subject or particular subjects, e.g., the Rockdale Academy of Science and Technology; the Gwinnett School of Mathematics, Science and Technology, and the Academy of Mathematics, Science and Technology at Kennesaw Mountain High School. The students in STEM programs must be designated as the STEM population, and must complete a STEM pathway. They are required to take advanced math and science courses in high school and math and science courses in middle and elementary schools. Beyond information and knowledge acquisition, the students are expected to apply acquired knowledge in solving problems and designing solutions, including applications to new and unpredictable situations. Progressively, students are expected to extend and refine their acquired knowledge and be able to use that knowledge to automatically and routinely analyze and solve problems and create solutions. At the highest level, students are expected to develop the competence to think in complex ways and apply their knowledge and skills to create solutions in new situations while extending this knowledge. The instructional programs are expected to involve business, community and post-secondary partners. The GA DOE conducts performance assessments to determine the extent to which schools and programs are meeting pre-defined STEM objectives.
Below are student learning objectives in STEM as described by Lyon and Aguilar at the STEM Forum (2014). A STEM student must be able to:
(1) Ask questions (for Science) and define problems (for Engineering) (2) Develop and use models (3) Plan and carry out (their own) investigations (4) Analyze and interpret data (5) Use Mathematics and Computational thinking (6) Construct explanations (for Science) and design solutions (for Engineering) (7) Engage in argument based on evidence (8) Obtain, evaluate and communicate information
Recently, both the Common Core State Standards for Mathematics (CCSSM) and the Next Generation Science Standards (NGSS) have called for more and deeper connections among the STEM subjects. The NGSS explicitly includes practices and core disciplinary ideas from engineering alongside those for science, raising the expectation that science teachers will be expected to teach science and engineering in an integrated fashion (NAE, 2014). The Georgia STEM integration model integrates the science process and the engineering design process. Over time, students should be able to engage in an integrated science-engineering design process. Curricular should be integrated in the sense that there should be connections among all the courses, and students must engage in scientific research.
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Exercises that simply engage in building artifacts without any clear ties to some science or math concepts are not considered good examples of STEM. At some point during a unit of study, students should be engaged in all the science and engineering practices; however one does not have to do everything all the time or at the same time. Failure should be an option in STEM curricular. Students should be given the time to fail, go back and redesign until they get it right.
3.4 STEM Education Awareness Events
Beyond the integrated approach to pre-college STEM education in Georgia, there are several STEM education and awareness events including Georgia STEM Day, instituted in 2013 and held annually in May to raise STEM awareness. STEM festivals, STEM Without Borders, Girls Adventures in STEM, STEM Georgia Teachers' Academy, STEM Guest Teacher Laureates and the Georgia STEM Forum are all examples of STEM education and awareness events in Georgia.
The first ever of its kind in the history of Georgia, the Georgia STEM Forum was held on October 20-21, 2014 in the City of Athens to advance STEM implementation in the state of Georgia. Attended by over 900 K-12 and post-secondary educators from Georgia and other parts of the world, the STEM forum focused on clarifying the model for STEM education in Georgia, showcasing implementation best practices and lessons learned, and exhibiting a range of STEM and STEAM (i.e., Science, Technology, Engineering, Art and Mathematics) instructional materials, programs and other resources available. Evident in the 2-day program was a strong commitment to STEM implementation in the state of Georgia; a reiteration of the strong expectation for integration (of science, technology, engineering and mathematics) in the context of real-world experiences (using project or problembased approaches) expected in STEM programs in Georgia; a recognition that different school and programs were at different levels of maturity in program implementation and would continue to work through the process of implementation and refinement; and an acknowledgement that a high quality STEM education in Georgia will result in better and higher-paying jobs and economic advancement.
Today, there are several STEM education and awareness events in Georgia including Georgia STEM Day instituted in 2013 and held annually in May (a day for schools, students, teachers and companies to raise awareness, celebrate and engage in activities involving science, technology, engineering and math); STEM festivals with over 3,000 participants, the Georgia STEM Institute (supporting teacher development); STEM Without Borders (hosted by Georgia Tech Research Institute bringing subject matter experts to work with students on research project ideas), Girls Adventures in STEM, STEM Georgia Teachers' Academy (designed to support JK-12 efforts to include STEM education in the school curriculum), and STEM Georgia Teacher Laureates (offering teachers the opportunity to earn digital badges to become the Georgia Power Teacher Laureate).
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3.5 Resources to Support STEM Development
The US Department of Education's Race to the Top Fund provides competitive grants to encourage and reward states that are creating the conditions for education innovation and reform. STEM education and awareness development in Georgia is part of an ongoing and broader education reform agenda in the state. Georgia's education reform agenda is supported by a $400 million Race to the Top grant that focuses on K-12 education. The Race to the Top Innovation Fund is a $19.4 million fund created under Georgia's RT3 plan, a competitive grant program that encourages new and innovative partnerships among K-12 schools, colleges and universities, nonprofit organizations, and businesses on projects to improve student educational achievement. The initiatives range from the creation of STEM schools and programs, formal instructor training, and student education, and offer several possibilities with respect to leveraging already existing initiatives to promote transportation-STEM (Table 1).
Table 1 Examples of STEM initiatives in Georgia (Race to the Top Innovation Fund)
Round 1 Winners 1. The Regional Charter STEM Academy: A partnership between White, Hall and Lumpkin county school systems and North Georgia College & State University to create a tri-county STEM charter school
2. The KIPP Teacher Fellows Program: A teacher induction program that will train Georgia State University and Mercer University College of Education graduates and deploy them to metro Atlanta Schools where they are most needed.
3. 21st Century STEM Collaborations: Applications of the Direct to Discovery Model A collaboration between Barrow County Schools and the Georgia Institute of Technology to integrate the Direct to Discovery method into the requirements of Georgia Performance Standards.
4. Teach for Georgia: A teacher pipeline program modeled after Teach for America that will recruit Georgia Institute for Technology STEM majors to each in rural areas of Georgia.
5. Drew Charter School Partners of Innovation: A partnership between Georgia State University and Georgia Institute of Technology and Drew Charter School to create one of the state's first STEAM (Science, Technology, Engineering, Arts and Mathematics) schools.
Round 2 Winners 6. Murray County STEM Academy: Murray County Schools, in partnership with Georgia Northwestern Technical College, the Chatsworth-Murray County Chamber of Commerce and others will open program focused on remediating 8th grade students and developing their interest in STEM careers.
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7. The New Teacher Residency Project: A partnership between Atlanta Neighborhood Charter School and Georgia State University College of Education to address fundamental flaws in the transitional new teacher induction model.
8. Smyrna Academy of Excellence: The Smyrna Educational Alliance, in partnership with Georgia State University, Georgia Institute of Technology, Lockheed Martin Corp., and others, seeks to open a STEM charter school serving students in south Cobb County.
9. STEM for Life Program: A partnership between Carroll County Schools and Southwire to expand and replicate the existing 12 for Life Program, which supplements classroom learning with real-world experience in advanced manufacturing.
10. The STEM Targeted Education Program (STEP) Academy: An accelerated coursework, mentoring and Biotechnology Research and Development career pathway program serving at-risk overage 8th grade students in Gwinnett County Public Schools through a partnership with Gwinnett Technical College and the Gwinnett Chamber of Commerce.
11. Student Applied Learning, New Teacher Induction and Staff Leadership Program: Morehouse College, in partnership with Clayton County Schools, will provide an interwoven approach to applied learning and teacher professional development through the implementation of a summer student research and teacher development program.
12. Teach to Learn: A teacher induction program that builds a comprehensive support bridge between teacher preparation at the University of Georgia and teacher induction in Clarke County Schools while building school leadership capacity.
13. Tift County Mechatronics Partnership: Tift County Schools, in partnership with Moultrie Technical College, ConAgra Foods, Heatcraft Manufacturing and others, will develop a career pathway focused on Mechatronics, an interdisciplinary field of study involving control systems, electronic systems, computers and mechanical systems that will equip students to work in a variety of industrial, manufacturing and health sciences settings.
14. UGA/GAEL Early Career Principal Residency Program: The University of Georgia and the Georgia Association of Educational Leaders will implement a 2-year induction program for early career principals in the state's lowest achieving schools.
Round 3 Winners 15. Building the Pipeline of Highly Effective Charter Teachers and Leaders: The Georgia Charter Schools Association and Lake Oconee Academy will develop and expand three recruitment, training and alternate certification programs to attract, support and retain highly effective teachers and leaders in the charter school sector.
16. Community Partnership for a Quality Pipeline of Effective High School Leaders: The Georgia Leadership Institute for School Improvement will support Paulding County School System to build district capacity and create a pipeline of effective high school teachers.
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17. Computational Thinking: 21st Century STEM Problem-Solving Skills for Georgia Students: The Georgia Institute of Technology will work with B. E. Mays High School and Tapjoy, Inc. to incorporate computational thinking into high school STEM curricula, teaching students to construct models to simulate, visualize and solve real-world problems.
18. Charter System Leadership Development and Governance Certification Program: As a newly approved charter system, Fulton County Schools and its partners will launch the Leadership and Innovation Academy, a program to equip principals and School Governance Councils with the skills they need to successfully operate and govern a charter school.
19. Drew Charter School Partnership for Expansion: Drew Charter School, the Georgia Tech Center for Education Integrating Science, Mathematics and Computing (GT CEISMC), the Georgia State University School of Music and others will expand Drew's highly successful pre K 8 STEAM curriculum to grades 9-12, creating a true cradle-to-college pipeline serving inner city students.
20. Greene County STEAM TLA Collaborative: Greene County Schools, the Georgia Institute of Technology, University of Georgia faculty and Ed Innovation Partners seek to open a charter school in Greene County with the mission of increasing the number of students who choose STEM fields as a career.
21. Museum in a Box: The Museum School of Avondale Estates will work with Zoo Atlanta, the Georgia Aquarium, Fernbank Museum of Natural History, the Atlanta History Center and others to expand the school's highly successful museum-based learning strategy to metro-area schools.
22. Real STEM: A partnership between Georgia Southern University, seven area research institutes and six school districts to develop hands-on STEM learning modules related to the environmental concerns of Georgia's coastal region.
23. Rockdale 21st Century Academy of Environmental Studies: Rockdale County Schools, in partnership with GT CEISMC and Advancement Via Individual Determination (AVID), will create a STEM-focused middle grades school that provides students with portfolio and project-based learning modules.
3.6 STEM Initiatives at Universities and Professional Organizations
3.6.1 STEM Initiatives at CEISMC Under the Race to the Top plan, the state has also partnered with the Center for Education Integrating Science, Mathematics and Computing (CEISMC) at the Georgia Institute of Technology to enhance teacher development and student learning opportunities in STEM areas. GA DOE has partnered with CEISMC to provide professional development for teachers in grades 3-12 in STEM content and content delivery skills. The Georgia Institute of Technology is also involved in several K-12 outreach initiatives in the Metro Atlanta area through activities in the University Transportation Center. These programs and initiatives are especially important for
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providing support and contact with members of underrepresented groups in transportation engineering such as women and minorities, and target elementary, middle and high school students.
GA DOE has partnered with CEISMC to provide professional development for teachers in grades 3-12 in STEM content and content delivery skills. The state has six CEISMC STEM projects that do the following:
(1) Provide online professional development to STEM teachers in STEM best practices;
(2) Develop instructional toolkits for administrators and teachers to support the effective use of technology in a standards-based classroom;
(3) Expand the Georgia Intern-Fellowships for Teachers (GIFT) program; (4) Provide a new operations research-based mathematics course as a Math 4
option; (5) Use robotics/engineering design to create an integrated STEM course, and (6) Offer advanced courses in college-level calculus II and III through video
conferencing.
During the 2011-2012 academic year, CEISMC formed content teams to develop the self-paced online course content for advanced courses for students. CEISMC had developed, piloted and offered the first prototype STEM online course for teachers by April 2012. CEISMC also worked with the Georgia Department of Education and the Georgia Virtual School to design and test the first module of the Instructional Technology Toolkit. In summer 2012, 102 teachers participated in the GIFT program in which they produced lesson plans for classroom implementation that were shared with the Department for placement on the Department's website. CEISMC also developed an 8th grade 9-week robotics and engineering course.
3.6.2 STEM at Universities and Colleges in Georgia The Georgia Institute of Technology is involved in several K-12 outreach initiatives in the Metro Atlanta area through University Transportation Center (UTC) activities. Transportation researchers and students at Georgia Tech strongly believe it is important to be involved in the larger community and attract young talent and ideas to the dynamic and challenging world of transportation engineering. These programs and initiatives are especially important for providing support and contact with members of underrepresented groups in transportation engineering such as women and minorities. Three types of activities are on-going, covering a wide range of grades and topics.
Elementary and middle school outreach at Centennial Place Academy Under the auspices of the Southeastern Transportation Research, Innovation, Development and Education Center (STRIDE), researchers from Georgia Tech have been working with 5th and 6th grade students at Centennial Place
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Academy to introduce elements of Engineering such as measurements, data collection, data analysis, presentation, and group work focusing on examples from topics in Transportation Engineering. Activities include introductory presentations that provide an overview of the transportation discipline, as well as two-day hands-on research sessions during which students participate in the entire research planning, data collection, analysis, and presentation process. The initiative has encouraged the diverse student body found at Centennial Place (student body: 49.8% Female, 86% African American, 5% Caucasian, 2% Asian, 3% Hispanic, 4% Multi Racial, 71% Free and Reduced Lunch) to consider Engineering (and particularly Transportation Engineering) as a fun and accessible field of study that applies to everyday life.
Middle school summer camps and curricula development For two years, the National Center for Transportation System Productivity and Management (NCTSPM) has partnered with Chamblee Middle School, Forest Park High School, and CEISMC to host Summer STEM programs focused on developing innovative transportation related curricula for use in middle and high school classrooms. Teachers from Atlanta area schools were selected through the Georgia Intern Fellowships for Teachers (GIFT) program to develop transportation curricula. The Chamblee Middle School principal implemented a STEM program focused on transportation after 2013 Summer Camp.
Research projects incorporating high school student participation Georgia Tech researchers have embraced high school student participation in research projects. Students gain first-hand experience taking part in cutting-edge transportation research. o Decatur High School In the Automated Sidewalk Quality and Safety Assessment System project sponsored by STRIDE, Georgia Tech researchers reached out to Decatur High School. High school students learned about the sidewalk quality assessment system. Using the automated system, the students planned and implemented sidewalk data collection. o Kennesaw Mountain High School The Safety and Operations Lab at Georgia Tech is hosting a Kennesaw Mountain High School Magnet student as a high school intern. The student is studying the driver performance of high school students in complex driving environments, and will design and run a research experiment at her high school. This initiative supports the efforts of area Magnet high schools in providing science, math, and technology education to deserving students.
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Several other universities and colleges are involved in STEM programming including the University of Georgia, Georgia Perimeter College, Georgia College, Georgia State University, University of West Georgia, Albany State University, Clark Atlanta University, Southern Polytechnic University. Table 2 provides information on selected colleges and universities.

Table 2 STEM programs in universities and colleges in Georgia

College/ Univ.
Georgia College

Dept.

STEM Contact
Dr. Rosalie Richards

University of Georgia

Office of STEM Education

Dr. Charles Kutal Melissa Kinney

Georgia Perimeter College Georgia State University

College of Letters and Science Office of STEM Initiatives Georgia State University Center for STEM Education

Dr. Cynthia Lester Dabne Dixon

Email

Phone

rosalie.richards @gcsu.edu stem@gcsu.edu

ckutal@uga.edu

mkinney@uga.e du

(706) 5424514 (706) 5682056

gpc.stem@gpc.e du
stemoffice@gsu. edu

(678) 8912895

Website http://www.gcsu.edu/st em/usg.htm http://www.gcsu.edu/ev aluation/stemprojects.ht m http://ose.uga.edu/
http://depts.gpc.edu/~g pcstem/ http://cas.gsu.edu/stem /stem-projects/

University of West Georgia
Albany State University Clark Atlanta University

College of Science and Mathemat ics

Dr. S. Swanny Mruthini Amanda Wright

STI

Charles

Ochie,

Sr.

STI

Carlos

Graza

smruthin@westg a.edu
awright@westga .edu
charles.ochie@a surams.edu
cgarza@cau.edu

(678) 8395190 (229) 4304864 (404) 8806903

http://www.westga.edu/ uwise/index_310.php

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College/ Univ.
Southern Polythenic University

Dept.
CE Summer Camp

STEM Contact
Dr. Wasim Barham

Email

Phone

wbarham@spsu. (678)

edu

915-

3946

Website
http://www.spsu.edu/ca mps/

3.6.3 STEM Initiatives with the Involvement of Professional Organizations Multiple professional organizations active in the transportation field including ASCE (American Society of Civil Engineers), ITE (Institute of Transportation Engineers) and WTS (Women's Transportation Seminar) have on-going programs that support K-12 STEM education. Table 3 summarizes major activities undertaken by the ASCE, WTS and the Institute of Transportation Engineers (ITE). Since a lot of engineers are already part of these organizations, there is a considerable amount of synergy in promoting STEM education and development through professional organizations.

Table 3 STEM initiatives of major professional organizations

Org.
ASCE
WTS
ITE

Program
Future City Competition
Transportati on YOU
Exploring Engineering Academy

Description
Students plan cities using the SimCity software and write research essays on civil engineering challenges and solutions.
Transportation YOU is a mentoring program that pairs young girls ages 1318 with mentors, who are WTS members. The goal is to encourage young girls to take courses in STEM fields and eventually pursue a career in the transportation industry.
The Exploring Engineering Academy brings talented students to engineering laboratories on the Georgia Institute of Technology campus. The goal is to attract the students to science and engineering degrees, and, eventually,

GA Activities
Southern Polytechnic State University hosts the Georgia region Future City competition.
The WTS Atlanta chapter coordinates ongoing mentorprotg activities, currently mainly at Grady High School. GA specific

Audience
Grades 6-8
Girls ages 13-18
High school boys and girls, grades 1012

Duration
September to February, annually
Monthly meetings, on-going
One week, yearly

Contact
Tony Rizzuto, Ph.D. Future City Georgia Region Coordinator Assoc. Professor School of Arch. & Constr. Mgmt. SPSU, Email:tony7957@ bellsouth.net Angela Snyder President, WTS Atlanta Chapter Email: angela.snyeder@ wolvertonassoc.com
Tony Belcher Georgia Department of Transportation tbelcher@dot.ga. gov

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engineering careers. Students also tour engineering facilities of major corporations around metro Atlanta.
3.7 Implications for Effective STEM Programming at GDOT
In 2012, the Council of University Transportation Centers estimated that 40 to 50 percent of the transportation workforce is expected to retire in the next 10 years, with the influx of the "Baby Boomers" generation to the retirement pool (CUTC, 2012). State Departments of Transportation (DOTs) have therefore recognized the need to invest in K-12 programs to increase students' interest in the field of Transportation and increase the pool of employees for DOTs, as well as private sector firms and academic institutions that support state DOT functions and the transportation industry in various ways. There is also evidence that students are more likely to choose transportation as a specialization if they are informed about the profession (Agrawal and Dill, 2009). Furthermore, there is evidence that a high quality early STEM education has the highest rate of return for public dollars (ROR of $7 13 for every dollar spent or 13-18% annual ROR) (Strobel, 2014). These facts and the developing STEM climate in the state of Georgia offer several opportunities for GDOT to invest in transportation STEM activities to promote workforce development within the state. The following observations should influence the types of programs that are considered and developed to achieve this goal.
(1) There are several STEM schools in Georgia where students are already obtaining STEM education. Targeting students from such schools would likely increase the rate of return for GDOT by building on an already established STEM foundation to develop Transportation-STEM awareness and efficacy.
(2) While there is evidence that early STEM education results in a higher rate of return on investment for public dollars, a major objective of GDOT's STEM initiative is to create awareness of Transportation Engineering and related fields in the minds of students, and in competition with other STEM fields. Thus, from an agency perspective and in the shorter term, there may be more value to be derived from prioritizing high school STEM awareness initiatives targeting students who have already been exposed to STEM, and only considering additional early STEM education initiatives as there are sufficient resources to do so.
(3) In light of the workforce development goals of GDOT, it will make sense to consider carefully the relative value of recurrent STEM events (e.g., STI) versus of ongoing STEM education processes to be found in STEM school programs. While recurrent STEM events could be designed to be exclusively
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STEM and Our Future Transportation Leaders
about Transportation, embedding material within school curricular will place this material in the context of several different STEM fields within pre-existing curricula. Extended one-time events, such as Summer Transportation Institute extending over two or more weeks, allow the students to gain more extended and in-depth knowledge about Transportation in ways that are more likely to have an indelible mark on them and influence their career choices.
(4) In light of GDOT's desire to develop the workforce pipeline, a clear distinction must also be drawn between one-day events that simply raise awareness of transportation careers and programs that extend over multiple weeks allowing for more in-depth and broader knowledge about Transportation. As the intent is to have an indelible mark on the students and interest them in the field of Transportation, extended transportation-related STEM programs are likely to be the more effective alternative than shorter one-day STEM awareness programs.
(5) Several established resources should be considered in developing a STEM program at GDOT including various funding opportunities to support STEM development (e.g., Race to the Top Funds, the National Summer Transportation Institute), various universities and colleges in Georgia, STEM education organizations like CEISMC at Georgia Institute of Technology, various professional organizations interested in STEM engagement (e.g., ITE, WTS, ASCE), various K-12 schools and programs already involved in integrated STEM education, private transportation consultants, the GA DOE, and other parties interested in supporting and promoting STEM programming and activities throughout the state of Georgia.
(6) Focusing on partnerships with some of the state's local education authorities (LEAs) or charter schools will lead to potential access to some of Georgia's most talented students and economically disadvantaged students. The participating LEAs in Georgia's Race to the Top (RT3) plan enrolled 40 percent of Georgia's K-12 students and 44 percent of the state's K-12 students who lived in poverty as of 2011.
(7) It would also be expedient to consider partnerships between GDOT and professional organizations in Transportation (e.g., ITE, ITS, WTS, COMTO, etc.), some that already have recurrent STEM events, as well as other transportation agencies in Georgia (i.e., ARC and other MPOs, GRTA, SRTA, MARTA, GA FHWA Resource Center, etc.), and private consultants, as well as leverage resources as it makes sense from University Transportation Centers (UTC) with STEM experience.
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(8) Finally, in light of the growing STEM programming in K-12 schools and the competition from other fields, it will be important to develop transportationSTEM programs that students will consider exciting, engaging and fun to promote the field of transportation as one that can compete effectively with other exciting choices in other disciplines that have been successful at engaging elementary, middle and high school students. Field trips that expose students to various kinds of careers in Transportation; exciting designs linked with Scientific principles; practical applications and simulations that teach these principles in a real world context, explications of how transportation impacts our daily lives and our nation's economy these and other examples of practices that are likely to capture the students' imagination will be strong candidates for consideration in the development of an effective Transportation-STEM program.
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4 Review of STEM in Georgia Department of Transportation
This chapter details existing capabilities and interest within GDOT to support STEM outreach programming to K-12 students. It outlines past and current programming, identifies various ways in which GDOT employees are interested in supporting STEM activities, and opportunities for cultivating STEM outreach as part of GDOT culture.
Current STEM programs and past efforts were initially identified through conversations with GDOT staff. A panel of GDOT employees was also convened to identify any additional programs at the Department and to develop potential future programs and activities based on transportation-related STEM programs across the country. One result of the panel meeting was the development of GDOT employee survey designed to assess the interest of the employees in STEM outreach programming. This chapter reports on ongoing STEM activities at GDOT and details the results of that survey.
4.1 Panel Meeting Outcomes
A panel of GDOT employees was also convened on November 21, 2014 to identify programs at the Department and to develop potential future programs and activities based on other transportation-related STEM programs across the country. The Panel consisted of four GDOT employees with an interest in STEM and a recent retiree who had championed GDOT STEM initiatives in the past. The discussion was guided by the research group and supported by a PowerPoint presentation (Appendix E).
4.1.1 GDOT Involvement in STEM Outreach Programs Past STEM involvement includes informal employee participation in Introduce a Girl to Engineering Day and Future City Competition, tours of facilities such as the Transportation Management Center, the Materials Lab and the Office of Bridge Design, and provision of speakers for Career Days through a Speakers' Bureau.
The Future City Competition is a national program where teams of middle-school students research, design, plan and build a city over the course of four months. Each team is guided by a mentor who assists them in dealing with the complex issues related to cities. The state of Georgia is represented at the national competition by the team that wins the regional competition. GDOT employees have served as judges at the regional competition. In fact, the Commissioner served as head judge in the past and has agreed to do so again this year (2015). GDOT also provides a monetary award for the top transportation system for the region; this award is supported by internal donations.
Introduce a Girl to Engineering is a national initiative with events typically held during or around National Engineers Week (E-Week). Activities generally consist of half-day programs that involve hands-on activities, motivational speakers, and
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informational forums that are geared towards middle-school girls and their parents. In the Atlanta metropolitan region, there were often two sessions, one in which GDOT participated. This session was previously held at Georgia Tech and hosted by Women In Engineering and the College of Engineering. Past GDOT employees have played a role in organizing the event or have participated in the informational forum by manning booths on different civil engineering disciplines, including transportation.
A third program was identified through conversations with Human Resources. This is not a formal program supported by the Department: the Office of Bridge Design hosts a small group of elementary school students once a year. For approximately an hour, engineers present and explain bridge design to students.
4.1.2 Panel Discussion of STEM Alternatives The panel discussed initial findings of the research relative to identifying the most beneficial program alternatives, as well as the resources and capabilities that GDOT possesses to implement a continued STEM outreach program. Discussion on the five program alternatives provided the following feedback:
1. The National Summer Transportation Institute (NSTI) was identified as the most attractive program alternative. NSTIs have previously been held at Albany State University and Clark Atlanta University.
2. AASHTO TRAC & RIDES workshops and training are an option for teacher training and curriculum development programs. Past employees at GDOT suggested this program but it has not yet been implemented. This alternative was not highly preferred, but it was recommended for further consideration in a phased approach to enhancing STEM programming at GDOT.
3. A high school internship program was suggested as an ideal alternative for relationship-building between students and GDOT officials. There is currently a collegiate level internship program and GDOT has hired high school level interns in the past as a part of the Governor's summer workers program. There were approximately ten interns who primarily performed clerical tasks. It is important that such a program be mutually beneficial. Therefore, it was suggested that the various divisions of the Department be surveyed to identify the types of work these units could provide high-school level interns. A less involving, "shadow" program was proposed as an alternative.
4. Ideas for one-day STEM awareness events were brainstormed and included tours of labs, the sign shop, the Transportation Management Center (TMC), the Materials Lab, the Office of Bridge Design, and Highway Emergency Response Operators (HERO) units. The Construction Expo Foundation of Georgia and Construction Career Days were identified as other potential opportunities. Introduce a Girl to Engineering, which has had GDOT involvement in the past, was recommended as a model for a one-day event.
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5. The suggested alternative for employee school visits pulls from and builds on the former GDOT Speakers' Bureau that was replaced by the Communications Office around 2006. The panel noted that supporting resources such as public speaking training (available through GDOT), presentation content and templates, and advice/training on how to teach middle school students were necessary to support the implementation of such a program. Career days and career fairs were also identified as potential alternatives for school visits.
The following recommendations were offered to frame the development of future STEM programming strategies:
1. Think in terms of long-term extended STEM programs versus short-term STEM awareness events
2. Target STEM certified schools 3. Design initiatives with exclusive/in-depth focus on transportation 4. Design long-term extended initiatives focused on high schools 5. Focus awareness programs on elementary and middle schools 6. Leverage existing resources and build partnership with transportation-related
STEM stakeholders.
4.2 GDOT Employee Survey and Results
As a follow-up to the panel meeting discussion, GDOT employees were surveyed to determine their interest in STEM programming with the agency.
The survey requested information on employee participation in STEM outreach activities, including how often and in what capacity they participate. It also asked if the employees had been involved in GDOT STEM outreach, why or why not, and in what types of activities they had been involved in. It then gauged their interest in future participation in STEM outreach, also asking what activities would be of interest. The survey instrument is included in Appendix F.
The 13-question survey was sent to the approximately 4,000 employees of GDOT on January 21, 2015. Over two weeks, 339 responses were collected, a response rate of about 8 percent. The sections below detail the results of the survey.
The survey asked about employee participation in STEM programming previously sponsored by GDOT. The vast majority of respondents (97 percent) had not participated in any GDOT STEM outreach. The reason most cited for not participating was lack of awareness or knowledge of opportunities to participate in. Of the respondents that commented on why they did not participate (256 respondents), 92 percent were unaware of opportunities. Of the remaining responses, being a new employee and time constraints were most often mentioned (8 percent of 256 respondents). There were 12 respondents that had participated in GDOT STEM activities. Over half of these respondents had participated in school presentations
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and/or Construction Career Days. These and the other activities with their respective participation levels are shown in Figure 9.

Participation in GDOT STEM Activities

School Presentations and Career Day Career Fairs
Future City Competition MATHCOUNTS
Community Advisor Curriculum Development
Tours (Lab building) Other

0

1

2

3

4

5

6

7

8

# of Respondents n=12

Figure 9 STEM activities in which employees have participated through GDOT
Employees were also asked about their interest in participating in GDOT STEM activities. The majority of respondents (72 percent) were very or somewhat interested in participating in STEM activities through GDOT (Figure 10). When given a list of potential activities, nearly half of the respondents were interested in serving as a judge for a competition or speaking at a school. Participating in a 2-6 hour event or helping to plan such an event also garnered a good deal of interest (Figure 11). There is some overlap in participating in a 2-6 hour event, judging a competition and participating in a 4-6 week summer program. It is likely that in a summer program, there will be competitions and smaller events that employees can volunteer to assist with.

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Interest in GDOT STEM Activities
7%

21%

29%

Very Interested

Somewhat Interested

Neutral

Not Interested

43%

n=262

Figure 10 Interest in participating in STEM outreach programs through GDOT

Interest in GDOT STEM Activities

Serve as judge for a competition Give a talk at middle or high school/Career Day
Participate in a 2-6 hour event Serve on a committee to plan an event lasting 2-6 hours
Host a shadow student Participate in a summer program lasting 4-6 weeks
Mentor a team for an on-going competition Not Interested Other
0

50

100

150

# of Respondents n=262

Figure 11 Interest in potential GDOT STEM outreach activities
The ranking for employee preference of activities was similar across all categories of interest (very, somewhat, and neutral interest in GDOT STEM activities) and mirrored

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the activity ranking of all respondents (Figure 11). For employees with neutral interest, however, mentoring a team outranked hosting a shadow student or participating in a summer program.
More information was gathered about STEM activities by asking if employees were involved in efforts outside of GDOT. Only about 9 percent (20 respondents) of the 214 respondents to this question were involved in STEM-related activities outside of GDOT. GDOT employees were also asked about outreach activities (STEM or otherwise) in which they participate. These are shown in Figure 12. Of the employees that had participated in previous GDOT STEM outreach, half (6 of 12) were also active outside of GDOT. Of the respondents that were not involved in GDOT STEM activities (202 respondents), 7 percent (14) reported participation in STEM outreach outside of the organization. Of all the respondents who participate in STEM outreach activities outside GDOT (20), all but two respondents (who expressed neutral interest) also expressed interest in becoming involved in GDOT STEM activities; most were "very interested."

Employee Outreach Activities Outside GDOT

Community organizations (including church) Local schools
Career fairs and Career Day Judging science fairs and other competitions
Mentor FIRST Lego League
Fundraising Other 0

5

10

15

20

25

# of Respondents n=77

Figure 12 Types of outreach activities that GDOT employees participate in
The frequency of outreach activities is shown in Figure 13. It is important to note that respondents represented in Figure 12 and those in Figure 13 are not necessarily the same pool, although there is some overlap. Overwhelmingly, GDOT employees that

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participated in some outreach activities did so through a community organization, including churches, or local school.
Frequency of Outreach Activities
Occasionally Weekly
More than once a month Monthly
Every 3 or 4 months Semi-Annually Annually 0 2 4 6 8 10 12 14 16 18 20 # of Respondents n=70
Figure 13 Frequency of participation in outreach activities
The depth of interest in STEM outreach was also gauged by asking how likely employees were to join an advisory or planning board for STEM programming at GDOT. Just over half of the respondents were either very or somewhat likely to consider serving on such a board. These results are shown in Figure 14.
Service on Advisory or Planning Board for STEM at GDOT

15% 18%

33%

34%

n=262

Very Likely Somewhat Likely Neutral Not Likely

Figure 14 Interest in serving on an advisory or planning board for GDOT STEM programming
4.3 District-Level STEM Activities
Much emphasis was placed on initiatives coming from the Department headquarters; however, it was also discovered that there are programs run out of district offices as well. Each of the seven district offices were contacted about their STEM outreach efforts. Programs and activities are generally run through or by the Communications

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Officer for each district. In speaking with the Communications Officers for the districts, several activities were identified.
District 4 was invited to Tift County High School's Career Fair in the spring of 2014. This was the first such event in recent years as the Communications Officer position had been vacant a year prior. The school contacted GDOT, and a recent graduate and new hire attended the fair with the Communications Officer.
District 5 has an established program with elementary schools. Over the past three years, employees have visited six schools to present on road design and construction topics. The Communications Officer and the Design Engineer created an interactive presentation geared towards 5th graders using PowerPoint, video of machinery, asphalt samples, and other visuals. The goal was to touch on all aspects of STEM in the 30-45 minute presentation. This program was initiated by an invitation from a local school and grew to other schools in the Savannah and Hinesville areas as the word spread.
4.4 Opportunities for STEM in GDOT
A concluding, yet very important, part of the panel meeting centered on the role of the panel in leveraging GDOT resources to cultivate a culture of STEM within the agency and continue to enhance the existing program; as well as the long term benefits of the program for pipeline development.
An integral component in instilling STEM outreach into the culture of GDOT is establishing ownership of the program. The panel meeting established a foundation for developing a partnership to support future efforts. This led to a discussion on the future role of the panel. The development of a STEM steering committee was suggested. This committee would involve external partners and stakeholders that may include (but are not limited to) STEM schools, universities (including Georgia Tech), UTCs, CEISMC, professional organizations, FHWA, firms in private industry, and the GA DOE.
The need for a champion and succession plan was discussed and it was suggested that a STEM Liaison be appointed for a 2-year term. This liaison would work with the GDOT panel to advance STEM programming in the agency. Longer-term STEM programming would involve Human Resources, the Communications Office and executive leadership.
Finally, opportunities to cultivate STEM outreach within the culture of GDOT were discussed. Program highlights in the Milepost and other agency communications, visibility in "Our GDOT" (i.e., human resources tool used internally for the organization with resources for employees including information on volunteer opportunities), human resources materials, publicity around E-Week and STEM Day, and coordination with GDOT Communications all support promoting STEM efforts
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throughout the organization. The survey of employees provided additional insight suggesting that email would be the best way to inform employees of STEM outreach opportunities (Figure 15).

13% 24%

Preferred Method to be Informed of
STEM Opportunities
Email

63%

Newsletter

n=26

Figure 15 Methods for informing GDOT employees of STEM outreach opportunities
Financial resources are crucial to the development of a STEM outreach program. Funds could be leveraged from external sources, such as GA DOE, FHWA, etc., to support such a program. Additionally, it would be very important to develop a business case for the recommended programs to support requests for funding from within the Department.
4.5 Summary
By meeting with GDOT representatives, conducting an employee survey, and interviewing district offices and human resources staff, a picture of programmatic STEM outreach at GDOT has begun to emerge. GDOT is currently involved informally in two STEM outreach programs: Future City Competition and Introduce a Girl to Engineering. In addition, several units are involved in student tours including the Traffic Management Center and Office of Bridge Design. Outside of these activities, district offices also have initiatives that they participate in periodically. Additionally, individual employees participate in STEM outreach, sometimes outside of GDOT.
Employee feedback on STEM outreach at GDOT presented useful insights on the types of activities the employees are involved in and would be interested in participating in. First and foremost, employees that responded to the survey indicated strong interest in and supported establishing a formal STEM outreach program at GDOT. School presentations, Construction Career Days, and career fairs were the most common STEM outreach activities and judging competitions, giving

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school talks and participating in a half day event were the activities that garnered the most interest. Key steps in creating a formal STEM outreach program have been identified through research and discussions with GDOT staff. These include identifying owners of the program, establishing strategic partners, identifying a champion and establishing a steering committee that includes executive leadership. Opportunities that currently exist within GDOT were also identified such as publicity through the Communications Office and "Our GDOT". Finally, any program will need financial support and it will be necessary to make a business case to support requests for funding from within the agency as well as leverage external resources at the state and Federal levels. The next chapter conducts a business case analysis for the five STEM outreach alternatives identified in this study.
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5 STEM Program Alternatives: Business Case Analysis
5.1 Introduction
This chapter presents a business case analysis on select STEM outreach activities for GDOT's consideration. The activities were designed based on an inventory of STEM initiatives and activities nationwide and within the state of Georgia; and the resources available within GDOT to support STEM activities. The research team has proposed five alternatives for GDOT to enhance transportation-STEM initiatives in Georgia, namely: a Summer Transportation Institute, AASHTO TRAC & RIDES, an Internship/Shadow Program, One-day STEM Awareness Events, and a Speaker's Bureau for School Visits. For each alternative, the report provides a program description, evaluates the resources required and available to execute the program, and identifies the potential benefits to the agency - both to replenish the pipeline as GDOT personnel retire, and to enhance the culture of STEM within the agency. A summary of benefits and costs is developed for all five alternatives. The costeffectiveness analysis offers a bird's-eye view of the proposed alternatives, what it would take to implement them and their resulting benefits. The cost-effectiveness analysis is not meant to rate one alternative against another; rather, it is to highlight the purposes and merits of the alternatives as standalone programs or in conjunction with some or all of the other alternatives. The combination of these alternatives provides a menu of options as the agency develops and implements a STEM program. Below, the alternatives are described in detail and then evaluated.
5.2 Georgia Tech Summer Transportation Institute (GTSTI)
The NSTI program is the first transportation career education program for secondary school youth to be authorized by the United States Congress. It was authorized under Section 1208 of the 1998 Transportation Equity Act for the 21st Century (TEA-21). With oversight from the U.S. Department of Transportation (USDOT), the Federal Highway Administration (FHWA) through its Division Offices implements the program by approving proposals and funding requests from accredited colleges and universities working with state DOTs. The objectives of the program are to increase student understanding of transportation engineering, promote awareness of transportationrelated STEM careers, and improve students' STEM capabilities.
A Summer Transportation Institute (STI) is proposed as a free, two-week, nonresidential program for high school students to be held at Georgia Institute of Technology. A partnership between the National Center for Transportation Systems Productivity and Management (NCTSPM), CEISMC, and Spelman College, this program aims to expose students to the field of Transportation through hands-on introductions to three important areas of Transportation Engineering: bridge design, traffic simulation, and transportation/city planning. The NCTSPM is a USDOT/RITA
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grant funded Tier 1 University Transportation Center (UTC) that conducts transportation-related research in the areas of safety, state-of-good-repair, and economic competitiveness. CEISMC's goal is to ensure that K-12 students in Georgia receive the best possible preparation in STEM as they seek their place in the modern world. CEISMC has an excellent track record of effective STEM programming in the state of Georgia. This program will be the first NSTI held at Georgia Tech.
5.2.1 Program Description During the GTSTI, students will be engaged in activities centered on three main challenges that will culminate in oral presentations where students will be evaluated against each other competitively, in teams and individually. Activity-based, in-class lessons organized into four modules will be coupled with field trips to locations that are relevant for the topics presented. These will be complemented with seminar sessions with high-profile guest speakers, and enhancement activities for career and college readiness and development. Students will also be taught professional oral and visual technical communication skills to help with their project challenge presentations. Table 4 provides an overview of the proposed activity schedule.
The introductory module will cover topics including transportation history, modes of transportation, pedestrian accessibility, and the engineering design process. There will be a featured guest speaker to help kick off the program, and a field trip to either the Atlanta Beltline or the newly inaugurated Atlanta Streetcar. The second module will be built around the Bridge Designer Software (formerly West Point Bridge Design). It will begin with an overview of bridges and bridge design and culminate in a bridge building challenge. Student teams will design a bridge using the software and translate their design into a physical prototype. In the third module, students will be introduced to intersection traffic control and traffic simulation models in a challenge to design the best signal timing plan for a selected intersection using the PTV VISSIM simulation software application. This will be coupled with a field trip to the GDOT Traffic Management Center. The final module will be centered on the SimCity video game, where students will build a city focusing primarily on transportation features (roads, mass transit, and planes). Module lessons will be interspersed with enhancement activities such as college admissions sessions by the Georgia Tech and Spelman College Offices of Admissions, discussions with current undergraduate and graduate students in transportation-related fields that include non-Civil Engineering disciplines (e.g., Electrical Engineering, Computer Science, etc.), and a career "speed dating" event with professionals in transportation-related fields. A baseline program schedule is provided in Table 4.
42

43

Week 1 9:00AM-11:30AM

Monday
Program Overview & Pre-Assessment

Transportation 101

11:30AM - 12:30PM 12:30PM 3:00PM

The Transportation Process
Guest Speaker

Modes of Transportation

Week 2 9:00AM-11:30AM

Monday
Intersection Mumble Jumble

Intersection Control

11:30AM - 12:30PM 12:30PM 3:00PM

Traffic Simulation & the Challenge
TMC Field Trip

Table 4 GT STI - Example program schedule

Tuesday The Engineering Design Process College Student Panel
Streetcar/Beltline Tour with Scavenger Hunt

Wednesday Pedestrian Accessibility Wheelchair Rides
LUNCH Introduction to Bridges & the Challenge The Bridge WebQuest

Thursday Designing Your Bridge Challenge Work Time Building Your Prototype
Challenge Work Time Technical Presentations 1.0

Friday Testing Your Prototype
Challenge Work Time
Presentation Preparations
Bridge Design Presentations
Week 1 Evaluations

Bridge Design Software Introduction

Tuesday
Building Your Simulation Model

Wednesday
Presentation Preparations

Challenge Work Time Testing Your Model

Traffic Simulation Presentations

Thursday Building Your City
Challenge Work Time

Friday Presentation Preparations
SimCity Presentations

Technical Presentations 2.0
Challenge Work Time

LUNCH Career Speed Dating
Transportation & City Planning

Office of Admissions

Introduction to SimCity & the Challenge

Measuring the Performance of Your City
Challenge Work Time

Post-Program Assessment
Closing Ceremony with Guest Speaker

Technical Presentations 3.0

STEM and Our Future Transportation Leaders
5.2.2 Program Administration Students will be recruited from public schools either in close proximity to the Georgia Tech campus or with which Georgia Tech has an existing relationship (through participation in other summer programs). Marketing materials will be sent to guidance counselors and STEM program/subject coordinators, applications will be submitted online, and selections will be made by a committee of CEISMC staff, faculty and graduate students from the School of Civil and Environmental Engineering at Georgia Tech, faculty from Spelman College, and members of an advisory committee that will include GDOT staff. Students will be accepted based on the following criteria:
Completion of algebra, or qualification for enrollment in algebra for the coming school term
Minimum cumulative GPA of 2.0/4.0 Interest in STEM or transportation education and/or career Two recommendation letters from a teacher or guidance counselor Written statement of interest
The program will primarily be staffed by Georgia Tech students and faculty, and CEISMC staff. CEISMC staff will lead pre- and post- program evaluations, as well as weekly student evaluations.
5.2.3 Resources Required GDOT employee participation will be on a volunteer basis primarily within an advisory committee (two to three GDOT employees), challenge facilitation (up to 2 hours each challenge day), competition judging, hosting the TMC field trip, and as panelists for the Career Speed Dating session.
The total program cost is estimated to be $40,000. An application developed to host the program in June 2015 requested $25,000 from the FHWA with $5,000 in sponsorship received from the NCTSPM, and additional in-kind donations expected from partner organizations and private companies.
5.2.4 Resources Available Georgia Tech hosts several different programs throughout the summer, and in the past, this has included transportation-related programs. As such, the institute is already prepared to host programs like the STI, with available funding.
5.2.5 Benefits to Agency This research project found evidence that participation in NSTIs across the country improved students' understanding of transportation, familiarity with transportation and other STEM fields, and general feelings of preparedness for college. In the same way, the GTSTI seeks to make significant impacts on students and to provide a platform for the development of transportation-STEM efficacy and the formation and development of relationships between student participants, program staff and GDOT personnel involved. Although the main benefit
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to the agency is student exposure to and awareness of transportation that can fuel the workforce pipeline in the long run, additional benefits can be found in publicity opportunities for GDOT and increased employee satisfaction for those employees who value opportunities to give back. With this program, GDOT can actively address the strategic goal theme: "making GDOT a better place to work will make GDOT a place that works better."
5.3 AASHTO TRAC & RIDES
5.3.1 Program Description The American Association of State Highway and Transportation Officials (AASHTO) has two educational programs: TRACTM (Transportation and Civil Engineering) and RIDES (Roadways Into Developing Elementary Students). One or both may be implemented as a program alternative for a STEM outreach program at GDOT. TRAC and RIDES are hands-on education programs developed by AASHTO for use in classrooms. The goal is not only to encourage critical thinking and develop problem-solving skills, but also to introduce students to the fields of transportation and civil engineering and related careers. AASHTO provides TRAC and RIDES toolkits for purchase. The costs for modules are listed in Table 5. The toolkits include curricula and materials for hands-on activities. RIDES is targeted at K-8 grade students and there is one RIDES module available for purchase. TRAC is for middle and high school students, and the following TRAC modules are available for purchase:
Bridge Builder Module Bridge Builder Upgrade Construction Module Environmental Module Maglev Module Motion Module Motion Module Upgrades Safety Module SIMCITY Module SIMCITY Upgrade Technology Module
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Table 5 Cost of TRAC and RIDES modules (2015)

Module Bridge Builder Module Bridge Builder Upgrade Construction Module Environmental Module Maglev Module Motion Module Motion Module +TI-84 Calculator Motion Module +8' Maglev Track Motion Module +TI-84 Calculator & 8' Maglev Track Safety Module SIMCITY Module (5 licenses) SIMCITY Module (20 site licenses) Technology Module RIDES

Unit Price $ 569.00 $ 350.00 $ 575.00 $ 650.00 $ 678.00 $ 917.00 $ 1,000.00 $ 1,159.00 $ 1,259.00 $ 1,495.00 $ 299.00 $ 899.00 $ 897.00 $ 1,500.00

Typically, state DOTs purchase TRAC and RIDES materials from AASHTO and then partner with teachers who implement the programs in their classrooms. Schools participate free of charge. The state DOT purchases the kit(s) and AASHTO trains the teachers on how to implement the toolkits in the classroom. The teachers then lead classroom activities in which DOT employees can participate on a volunteer basis.
5.3.2 Resources Required Generally, state DOTs purchase the toolkits from AASHTO. DOTs can either join as a member state or purchase modules a la carte. To become a member state, the membership fee is $7,000. This covers the entire state as well as training for all the modules. It includes training for teachers by AASHTO, as well as participation of students in the National Bridge Competition for students in grades 7-12. AASHTO has established an Adopt-A-State program, in which private companies provide sponsorship to a state DOT to join as a member. If a state purchases a module without joining as a member, free teacher training will not be provided. Most states use On-The-Job-Training (OJT) funds from FHWA to purchase individual modules.
In addition to the cost of purchasing the modules, GDOT will also need to appoint an individual to oversee implementation. It is estimated that this would require an employee to spend approximately 8 hours per week for 4-8 weeks (0.2 FTEs). This person would coordinate with AASHTO to purchase the toolkits and arrange the teacher training; work with the schools to identify teachers, provide teacher training, and coordinate any GDOT volunteer activities; and communicate volunteer opportunities to GDOT employees. Additionally, this person could seek a corporate sponsor to underwrite the cost of TRAC and RIDES materials.

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5.3.3 Resources Available Financial resources are available through OJT funds from FHWA, which are commonly used to purchase the modules. Additionally, AASHTO has established an Adopt-A-State program, in which private companies provide sponsorship to a state DOT to join as a member, defraying the cost to the state DOT.
Georgia Tech has developed relationships with a number of public schools in the Atlanta region and these relationships can be leveraged to identify schools and teachers who might be interested in partnering to implement these programs. Additionally, the survey conducted by the research team revealed a number of existing relationships between GDOT employees and area schools. A number of employees have represented GDOT at career days or school presentations, as well as conducted non-GDOT-related outreach. These individuals have relationships that can be leveraged to coordinate TRAC and RIDES activities. Moreover, some survey respondents mentioned instances of schools reaching out to district offices and some provided contacts of educators that would be interested in outreach efforts.
5.3.4 Benefits to Agency The main benefit of a TRAC and RIDES program to GDOT is pipeline development. By implementing transportation-related activities in schools, GDOT would expose students to the field of Transportation as well as give them an opportunity to develop skills that would be useful in a transportation career. Moreover, this type of activity allows for deeper engagement than a career fair or a one-time visit to a school. In addition to training the current students who participate in the activities, this kind of program also trains teachers who have influence over future students. The TRAC and RIDES program alternative offers a more indirect approach to GDOT for pipeline development, but offers a prospect with ongoing benefit.
5.4 Internship/Shadow Program
5.4.1 Program Description Internships provide students with exposure to transportation careers, as well as basic job training. Several state DOTs are able to sustain high-school level internship programs, namely Minnesota, Michigan and New York. GDOT only offers internship opportunities to collegiate level students (at least 18 years of age) to limit liability.
An alternative to a full-fledged internship program is to establish a shadow program. This program pairs a student with GDOT staff for one week. During the week, the student follows individual employees throughout their work day, in order to explore GDOT's work, and the employee's role in the organization, and to get a feel for the work of a transportation professional.
There are several ways in which a shadow program may be implemented. This report offers two models: assigning shadow students to a particular division (Option 1), and assigning students to a particular district (Option 2). In Option 1, each division hosts one shadow student. The shadow students then spend a week at the central office in Atlanta and rotate
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through various divisions. It will be the responsibility of each division to expose the students to GDOT and the transportation industry. Each student will have a mentor who will serve as the primary point of contact. Throughout the week, however, the shadow student will also spend time with other employees in the division.
In Option 2, each field district hosts a local student from within that district. As with the first option, a student will be assigned a primary mentor and each district will provide information, experience, and stimulating activities for the students during the week. Activities may include small scale research projects, interviewing employees and assisting employees with work such as plan reviews, simulations and preparation for meetings.
Either model could be scaled to increase the number of students or increase the program duration. The program could initially start with one week and one student per division/district. The program could then be extended to four weeks, hosting a new set of students each week for one full month during the summer. If the program gains high levels of interest, the number of students may be expanded as well. It is possible for each division and/or district to host more than one shadow students per week, or for both divisions and districts to host students. The particular arrangement will depend on the number of employees interested in/available to host students, the number of students that can be attracted to the program and other related factors.
The program could be strengthened by adding a few events for the students. For example, the students could be treated to a lunch with the commissioner and a limited number of presentations from the Department's divisions. The presentations will be the primary way that other shadow students will learn about divisions other than their own. This would help the students fit the work they see in the divisions/districts into the bigger picture. Each division can briefly present on their role and responsibilities, identifying particular positions and the impacts of division roles on the Department. Students can also share feedback on their experience and what they have learned. There is an opportunity for the shadow students who work with a division to help develop the division presentations based on their experiences over the course of the week.
The lunch would be held at the central office in Atlanta and give the students an opportunity to hear from the commissioner about how the agency and transportation in Georgia are managed. The lunch can be held at the beginning of the week as a welcome, but the scheduling will ultimately have to accommodate the commissioner's schedule. The division presentations could also be held at the central office. This event can be held at the conclusion of the week.
Logistics for these supplementary events are minimal for Option 1: the shadow program organized by divisions. For Option 2, the district-based shadow program, the supplementary events could be combined and held at the conclusion of the program to
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minimize travel to the central office. While at the central office, a tour can also be provided for shadow students working at district offices.
STEM schools, and schools that GDOT has previously partnered with, will be informed of the shadow program through their guidance departments. Additional recruitment may happen at career fairs and career days. Students will apply to the program by responding to several short answer questions that pique their interest in transportation such as: "How does transportation impact society?" "How do you deal with traffic in Atlanta?" or "How does a bridge carry heavy trucks without collapsing?" The application selection process can be handled by a representative from each division/district. This person may or may not serve as the mentor for the chosen student. Alternatively, the divisions/districts may convene an ad hoc committee to review applications. The selected students will be notified by Human Resources.
Another option for a relationship-building program is to phase an internship program into existence. Students can be selected based on their involvement in previous GDOT outreach efforts such as STI, TRAC or the Shadow Program. The internship would only be open to high school seniors. Limiting the number of students and the duration of the program may also reduce liability. GDOT would only host a small cohort of students (5-10) a year. Similar to the structure of shadow program, each district or division would support an intern. The internship would last for two summer months (June and July). The internship program could also be strengthened with supporting events, such as those mentioned for the shadow program, to provide additional information and opportunities for the students to develop strong relationships as a cohort.
5.4.2 Resources Required The most critical resource for the internship/shadow program is GDOT staff to act as mentors.
The shadow program requires one FTE per division or district for each week of the program. The student will be assigned to one staff member; however, during the week, the student may shadow other employees for a short time. Additional GDOT staff is needed to coordinate the student application and selection process and staff recruitment efforts. Also, staff will be required to create and deliver the division presentations. Organizing the supporting events will require additional resources, such as employee time to reserve space for the lunch with the commissioner and the division presentations; and to order catering the lunch for 7-10 students and their supervising employees. The estimated cost is $300 to $400 (at $20 per person).
An internship program does not require one FTE per student for the duration of the program. Employees mentoring the intern will devote some time to teaching and training the students; however, the students will also contribute to ongoing work within the divisions. As such, one resource specific to the internship program and not the shadow program, is
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intern salary. Other states with high school internship programs pay students $10-$14 per hour. For a month of full-time work, total salary accrues to $3,200 to $4480 per intern.
5.4.3 Resources Available Manpower is critical to a shadow program. Of the 262 employees surveyed, 89 (34%) expressed interest in hosting a shadow student, reflecting enthusiasm among the employees. This suggests that GDOT has the capacity necessary to recruit staff for the program. Space for lunch and presentations is available at the central office. Financial resources for catering and intern salary would have to be secured.
5.4.4 Benefits to Agency One of the returns to the program is the individual relationships established between GDOT employees and the students. This would occur while the students are also offered first-hand transportation experience. The program may also produce students who continue into the collegiate internship program and, eventually, into full-time employment after graduation. This continuing relationship has the potential to produce prospective employees already familiar with the Department at entry level. Additionally, for the internship program in particular, the divisions or districts would provide tasks that offer students opportunities to contribute to the work of the Department, creating a mutually beneficial relationship.
5.5 One-Day STEM Awareness Events
5.5.1 Program Description A one-day event will focus on increasing awareness of STEM and transportation for middle school students. Three alternative structures for such an event are a STEM Day Fair, Introduce a Child to Transportation, and Transportation Day.
The STEM Day Fair event will reach the largest audience, between 150 and 200 students. The event would be held on Georgia STEM Day and provide an opportunity for schools to participate in festivities held across the state that day. GDOT would partner with one or more middle schools and invite them to the event. The fair would consist of approximately 25 exhibits from GDOT, transportation firms, and professional organizations from metro Atlanta and across the state. Each exhibitor would be asked to create a display, preferably interactive, that explains their role in the organization, what they do, and how it impacts transportation in the state of Georgia. To encourage exhibitors to be creative, a "people's choice" award will be presented to one exhibitor based on the students' votes. Students would also be encouraged to learn from as many exhibits as possible with an activity that incentivizes them to visit and speak with exhibitors (e.g., BINGO, trivia, and passport). These activities are described in Table 6. Small prizes such as GDOT paraphernalia will be presented to students who complete the activity by the end of the event.
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Activity BINGO Trivia Passport

Table 6 Student incentivizing activities for STEM Day Fair
Description Exhibits are organized randomly in a 5X5 grid. Each exhibitor has a stamp or stickers and confirms that students have visited his/her booth by notarizing the box corresponding to his/her exhibit. Students must complete a row of five (or other combination). Each exhibitor is asked to provide a trivia question (in advance) that will be answered when students visit their booth. Students will receive a sheet/card with a random set of 10 of these questions. Throughout the day, they will work to answer a minimum number of these questions. Students will receive a card that has a blank 5X5 grid. Each exhibitor will have a unique stamp or stickers and as the students visit the exhibits, they will receive confirmation on their card. Students will collect at least 12 unique stamps/stickers.

The STEM Day Fair requires a large space. It could be held at GDOT in an atrium or hall/ballroom space that can accommodate 150-200 students and staffers for 25 exhibits. Tables and possibly easels would be provided; all other supplies would be furnished by the exhibitors. The fair could be scaled up to host additional schools and include more exhibits as it grows.
Each one-day event will need a coordinator. For the STEM Day Fair, the coordinator would be responsible for recruiting and communicating with external exhibitors. The individual would also work with internal GDOT exhibitors. The coordinator will communicate with the schools and oversee logistics, including space reservation. This individual will also be responsible for the activity and prizes and awards. He or she will manage these responsibilities but should be assisted by a committee of employees to provide the necessary support for a successful event.
The second alternative, Introduce a Child to Transportation, is modeled after the national program, Introduce a Girl to Engineering. The event will serve 75 to 100 middle-school students. The program is designed to be held on a weekend, preferably during Engineers' Week, but can also be held on STEM Day. Introduce a Child to Transportation is a structured program that will run from 9:00 am until 2:30 pm. The proposed schedule is shown in Table 7. A light continental breakfast will be provided during sign-in and the program will open with a welcome and keynote speaker. This will be followed by a fair of exhibits from GDOT's divisions. Each division will present on their role at GDOT and how it impacts transportation in general. Similar to the incentives for the STEM Day Fair, students can have a passport or trivia sheet to incentivize them to visit all the exhibits.

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Table 7 Schedule for Introduce a Child to Transportation

Time 09:00AM - 09:15AM 09:15AM - 10:15AM 10:15AM - 11:15AM 11:15AM - 11:30AM 11:30AM - 12:30PM 13:00PM - 14:30PM

Activities Sign-in and Breakfast Welcome and Keynote Division Fair Break Group Activity Lunch Panel & Closing

After a short break, there will be a group activity. Students will be separated into small groups to complete an activity that relates transportation more directly to STEM. Examples of suitable activities are given below. TEACHENGINEERING.org is a useful resource for such activities.
Bridge Types Tensile and Compressive Forces: Students explore how tension and compression forces act on three different bridge types. Using sponges, cardboard and string, they create models of suspension bridges and apply forces to understand how they disperse or transfer these loads.
Carve that Mountain Topography and Infrastructure: Students investigate major landforms such as mountains, rivers, plains, hills, oceans and plateaus. They build a three-dimensional model of a landscape depicting several of these landforms. Once they have built their model, they act as civil and transportation engineers to build a road through the landscape they have created.
Silver Streak Future Transportation Modes: Students design a futuristic transportation device that will hold the most people (pennies) as possible and move across the room as fast as possible.
Beams - Building Begins with a Beam: Students build a simple-span beam (vertically supported at both ends) out of foam insulation material to support a test load at midspan without significant deflection under the load. The "cost" of construction materials of the beam should be as small as possible while meeting the performance criteria related to the load capacity and permissible deflection.
The program will end with a box lunch and panel discussion on transportation careers during the lunch.
It is possible to scale up this event to reach more students. This would necessitate a larger space, additional volunteers, and multiple activities.
The coordinator for this event will be responsible for recruiting students to participate. The individual will reserve a hall/ballroom space for the event and oversee logistics, including catering. They will confirm a keynote speaker and panelists from GDOT and/or the broader transportation industry as well as coordinate with GDOT divisions for the fair. The coordinator will also prepare the activities, including securing supplies, and recruit GDOT employees to

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volunteer for the event. It is recommended that the coordinator has a committee to assist to ensure successful implementation of this program.

The third and final alternative, Transportation Day, will cater for about 45 middle-school students. The program is designed to be held on a weekend during Engineers' Week, and can also be held on STEM Day. The program runs throughout the morning, from 8:30 am until 12:30 pm. The proposed schedule is shown in Table 8. Transportation Day primarily consists of a series of three activities. After sign-in, the program opens with a welcome and panel on transportation careers. Following the panel, the activities will begin. Students will be separated into three groups of 15 students and will rotate between three activities. Examples of suitable activities are given above (e.g., Bridge Types, Carve the Mountain, Sliver Streak and Beams. Whatever activities are chosen should relate transportation directly to STEM). After the first activity (i.e., Rotation 1), there will be a short break that may include a snack. The second and third rotations will ensure that all students will be able to participate in each activity. The program will be concluded with a short discussion that allows the students to take stock of what they have learned and debrief on how transportation is related to STEM.

Table 8 Schedule for Transportation Day

Time 08:00AM - 08:15AM 08:30AM - 09:30AM 09:30AM - 10:15AM 10:15AM - 10:30AM 10:30AM - 11:15AM 11:15AM - 12 noon 12 noon - 12:30PM

Activities Sign-in Welcome and Panel Rotation 1 Break Rotation 2 Rotation 3 Closing

The coordinator for Transportation Day will be responsible for recruiting students and GDOT volunteers to participate in the program. This will include confirming panelists. The individual will secure a presentation hall/classroom space for the welcome and closing, and three breakout rooms for the activities. The coordinator will also organize and prepare the activities for the event, including securing supplies. The coordinator may find it useful to enlist a committee to assist in planning and implementing this event.
5.5.2 Resources Required There will be different resource requirements for the different alternatives. One critical resource for these events is labor. A dedicated coordinator is needed for all of the alternatives to recruit volunteers, publicize the event, and handle logistics. Between 6 and 20 volunteers will be needed depending on the alternative. The STEM Day Fair will need at least 10 volunteers to assist with logistics. Introduce a Child to Transportation will need between 15-20 volunteers and Transportation Day will need at least 6-10 volunteers to lead

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and supervise activities and serve as panelists. Volunteers will also be needed to create presentations and speak at fair booths. Finall, the STEM Fair requires volunteer participation from external partners as well. Space is another necessary resource for all the alternatives. Both Introduce a Child to Transportation and Transportation Day require supplies for activities, which are estimated at approximately $50 per activity. Introduce a Child to Transportation requires catering for 100-125 people for two meals. This may range from $2,000 to $2,500 (at an estimated $20 per person). Also, prizes and awards are desirable for all the event alternatives (at least $300 for new GDOT paraphernalia and approximately $20 for the exhibitor prize).
5.5.3 Resources Available Based on the employee survey, participation in a one-day event is a favored option for outreach. Of the 262 respondents, 109 (42%) showed interest in participating in such an event and 98 (37%) were interested in helping to plan it. This is encouraging for recruiting volunteers from the staff. The GDOT building provides space but funds would have to be identified to support these events.
5.5.4 Benefits to Agency The one-day event has the potential to be a highly publicized event that provides positive visibility for the Department while increasing awareness of transportation-related careers for middle school students. These single events will give interested employees an opportunity to engage in K-12 outreach; an outreach option that elicited interest from several employees.
5.6 Speaker's Bureau/School Visits
The suggested alternative for employee school visits pulls from and builds on the former GDOT Speakers' Bureau that was replaced by the Communications Office in or around 2006.
5.6.1 Program Description The GDOT Speakers' Bureau for School Visits, referred to as Speakers' Bureau for brevity, will offer STEM-related talks to middle and high school students within each of the seven transportation districts in Georgia. Members of the GDOT Speakers' Bureau will have the opportunity to visit schools and facilitate presentations covering STEM subject matter. The talks, given by GDOT employees, will provide interactive, hands-on, problem-based learning activities to engage the students and generate excitement about and interest in careers within the transportation industry. Students will have the chance to learn first-hand about the opportunities and challenges faced by industry professionals within the various GDOT divisions.
The GDOT Speakers' Bureau will be made up of a headquarters (HQ) program coordinator, district coordinators, and GDOT employees that will serve as speakers (Error! Reference source not found.). During the first year, the HQ program coordinator will seek out target schools in each district to schedule speakers. In subsequent years, an online request form,
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which will be managed by the HQ coordinator, will be created for schools/organizations to contact GDOT to schedule speakers. Speaker training will take place at least once a year to provide an overview of speaker resources and expected content. During this training, each speaker will be provided with a manual explaining responsibilities, program guidelines, and a database of approved topics and interactive activities. A sample program layout for a school visit is shown in Table 9.
Figure 16 Proposed program structure Table 9 Sample program layout
Introduction Introduction of speaker(s) and role at GDOT Introduction of transportation industry and careers
Presentation topic related to transportation Interactive/hands-on activity (See examples in One-Day Stem Awareness
Section) Question & Answer session Presentations will be adapted to different age groups and topics
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5.6.2 Resources Required The GDOT STEM panel noted that supporting resources such as public speaking training (available through GDOT), presentation content and templates, and advice/training on how to teach middle school students would be necessary to support the implementation of a new Speakers' Bureau for School Visits.
GDOT will need a program coordinator at headquarters to manage the efforts of the Speakers' Bureau. The coordinator will be responsible for partnering with at least one school within each of the established transportation districts to connect transportation professionals to classrooms in order to educate students about STEM-related topics and transportation careers. The HQ coordinator will also be responsible for distributing requests to the district offices to fill district coordinator positions and speaker requests.
District coordinators will be appointed by District engineers. District coordinators are needed to facilitate requests within each of the districts and will be responsible for fielding speaker requests and recruiting volunteers to join the Speakers' Bureau on a continuing basis.
GDOT employee volunteers will be needed to facilitate this initiative. Volunteers will visit schools and deliver or facilitate talks on their areas of expertise. Nearly half of the respondents of the GDOT Survey expressed an interest in speaking to middle- and highschool students about STEM-related topics and careers in the transportation industry. Clearly, GDOT is equipped with personnel resources readily available to implement a program of this nature.
GDOT will need to partner with at least one school within each of the seven districts. Target schools should include those with STEM initiatives, charter schools, or college and career academies. Each of the partner schools will be visited by a member of the Speakers' Bureau at least twice within each school year to establish a presence.
5.6.3 Benefits to Agency Based upon similar programs conducted by other transportation departments, offering a program of this type increases a student's awareness and understanding of existing and potential opportunities in the field of Transportation engineering. This increased awareness and understanding could in turn result in increased interest, which could eventually lead to recruiting of GDOT employees from the targeted students.
5.7 Benefits and Costs of Programs
Table 10 below details benefits and costs for the program alternatives described in this report. This information will support the development of agency STEM programming. It can be used in comparing and contrasting the different program alternatives as well as in developing an overarching program consisting of a menu of alternatives.
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Table 10 Benefits and costs of STEM program alternatives

Performance Measures Reach per Year (Students) Cost per Student ($) Cost to GDOT ($)

GTSTI Program
20-25
1,600 10,000

Internship & Shadow Program

TRAC & RIDES Internship

Shadow

Fair

One-Day Event

Intro a

Transpo

Child

Day

70-140

7-10

7-10 150-200

75-100

45

107-690 2,700-11,000

3,200-4,500 32,000 45,000 for 2 months' full-
time salary at $10/hr. - $14/hr.
for 10 students

20

3

35

15

400

350

2,500 - 500-650

3,000

Speaker's Bureau
140-350 Varies, Low
Cost to provide training manuals

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Employee Commitment

First year: 50 employee- hours over 1 month, minimum of 2 employees required Subsequent years: 20- employee- hours over 3 weeks,

First year: 40 employee-hours over 8 weeks, minimum 1 employee required Subsequent
years: 10
employee-hours
over 4 weeks,
minimum 1

560 employee hours over 2 months; minimum of 7 employees plus 10 hours for planning

280 employee hours over 2 months; minimum of 7 employees plus 10 hours of planning

45 employee hours over one day; min of 15 employees plus 12 hrs. for planning

150 employee hrs. over one day; min of 25 employees plus 24 hrs. for planning

32 employee hrs. over one day; min of 6 employees plus 12 hrs. for planning

Approximately 13 hours/year
2 hours (1 hour preparation x 2 times/year)
3 hours (1.5 hour presentation x 2 times/year)

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Performance Measures
Program Duration
Relationship Building

Internship & Shadow Program

GTSTI Program
minimum of 2 employees required

TRAC & RIDES employee required

Internship

Shadow

Fair

One-Day Event

Intro a

Transpo

Child

Day

Speaker's
Bureau 8 hours
(Training)

Long-term
High potential for agency personnel to build long-term relationships with students.

Short term Programs offered in conjunction with other non- Transportation programs
Low potential for agency personnel to build long-term relationships with students

High-potential for agency personnel to build long-term

Long term
High potential for agency personnel to build individual long-term relationships with students

Long term Short term Short term Short term Short term

High potential for agency personnel to build long- term relationships with students

Mid-range - High potential for agency personnel to build long-term relationships with school officials and teachers

Low-Mid range potential for agency personnel to build long- term relationships with students
Mid-range High potential for agency to build long-term

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Performance Measures

Internship & Shadow Program

GTSTI Program TRAC & RIDES relationships with teachers.

Internship

Shadow

Fair

Awareness of

High

Medium

High

High

Transportation

(Transportation

Engineering

presented with

discipline and

other

career

disciplinary

material in

class)

One-Day Event

Intro a

Transpo

Child

Day

Low

Speaker's
Bureau relationships with school officials and teachers. Medium (Periodic visits to schools can help cultivate student interest especially if same students are engaged multiple times)

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6 Conclusions, Recommendations & Implementation Guidance
6.1 Conclusions and Recommendations
Transportation workforce development has been recognized as a national priority. State Departments of Transportation have a significant role to play in feeding the workforce pipeline by raising awareness about transportation careers, as a large percentage of the baby-boomer generation retires from the workforce. In the state of Georgia, STEM education is defined as an integrated curriculum (as opposed to science, technology, engineering and mathematics taught in isolation) that is driven by problem solving, discovery, exploratory project/problem-based learning, and student-centered development of ideas and solutions. The Georgia Department of Education (GA DOE) views STEM education as an economic imperative and workforce development issue for the state and the nation. Together with several business, industry and education partners, GA DOE is committed to preparing students for 21st Century workplace careers by providing highquality educational opportunities in STEM fields.
This study results show that over 40% of state DOTs are involved STEM programming outreach to K-12 schools, several in partnership with university transportation centers and other STEM stakeholders such as professional organizations (e.g., ITE, WTS, ITS and ASCE); private consultants, and the Federal Highway Administration (FHWA). The majority of state DOT STEM programs target high school students and have a duration of two to four weeks. A majority of the programs have some financial support from state DOTs; a number have financial support from the FHWA and in-kind support from state DOTs. The STEM programs identified can be classified into five categories: (1) Residential or non-residential summer programs (e.g., summer transportation institute); (2) Teacher training and curriculum development programs (e.g., AASHTO's TRAC and RIDES programs); (3) Internship and Shadow Programs; (4) One-Day STEM awareness events (e.g., Introduce a Child to Transportation Day); and (5) Speakers' Bureaus (involving periodic employee visits to schools to present on transportation STEM applications). The level of activity indicates there is perceived value in developing and sustaining STEM programs in state DOTs. Empirical evidence and theory highlight the multiple benefits of STEM in academic and behavioral development, and an increased likelihood for students to select careers in STEM.
The business case analysis shows that STEM program alternatives that develop strong longterm relationships with middle and high school students have a higher potential for payoff in terms of recruiting employees for GDOT from the student pool. To this end, the Summer Transportation Institute and Internship/Shadow Programs are recommended as strong STEM-efficacy building, relationship building and career awareness programs to cultivate a
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pool of students from which GDOT employees can be recruited. On the other hand, one-day STEM awareness and speaker's bureau programs are good programs for cultivating STEM culture within the agency while developing transportation career awareness broadly, rather than in-depth, among a larger number of students. Teacher and curriculum training programs such as AASHTO's TRAC and RIDES programs are more useful for the agency to develop relationships with teachers rather than directly with students of local elementary, middle and high schools. Such programs will lead in the long run to instruction in transportation-STEM and increased transportation-STEM awareness and efficacy; however this will likely happen in the context of other STEM disciplines and priorities.
The business case analysis also shows that programs with strong relationship-building elements (e.g., summer transportation institute, internship and shadow programs) tend to require a higher level of investment of agency resources (employee time, funds, etc.) but also have higher potential to replenish the transportation pipeline in the long term. On the other hand, one-day STEM awareness programs (e.g., Introduce a Child to Transportation Day) tend to require less investment but also have lower potential for building strong relationships between GDOT employees and students. At the same time, such programs create STEM awareness in a larger number of students, and support enhancement of STEM culture in the agency as employees find opportunities to give back. The programs that can help build stronger relationships between employees and students in the long term have a higher potential to offer a recruitment pool in the future.
GDOT is currently involved informally in two STEM outreach programs at an organization level: Future City Competition and Introduce a Girl to Engineering. GDOT employee feedback on STEM outreach in the agency indicates there is strong interest in and support for establishing a STEM outreach program at GDOT. School presentations, career days, and career fairs were the most common STEM outreach activities that employees were engaged in, and judging competitions, giving school talks and participating in a half day event were the activities that garnered the most interest. All of these are examples of one-day STEM awareness events. Outside of these activities, some district offices also have initiatives that they participate in periodically. Additionally, individual employees participate in STEM outreach, sometimes outside of GDOT.
A survey of GDOT employees indicates that there is broad interest among employees in volunteering for STEM outreach to local schools. Out of over 300 employees that responded to the survey, the majority (i.e., 72%) indicated that they would be interested in participating in STEM activities through GDOT. Several employees indicated that they had not participated in GDOT STEM programming in the past because they were not aware of the existence of such programs. Several indicated that they would be interested in participating in such programs if they were informed via email.
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In addition, the study revealed several critical elements in establishing an effective STEM outreach program at GDOT: (1) establishing ownership of the program; (2) establishing strategic partners; (3) identifying a champion and (4) establishing a steering committee that includes executive leadership. Supporting resources that currently exist within GDOT were also identified including publicity through the Communications Office and "Our GDOT".
Thus the main recommendation from this study is that GDOT should therefore move forward with the development of a formal STEM outreach program that combines one or more longduration program alternatives with a strong relationship-building component (e.g., the summer transportation institute or internship/shadow programs for middle or high school students) with one or more shorter-duration program alternatives (e.g., STEM awareness or speaker's bureau programs for middle and elementary school students). Longer duration programs such as the summer transportation institute will allow GDOT to develop stronger and long-term relationships with pool of high and middle school students from which the agency can recruit future GDOT employees. GDOT can work with a university or university transportation center to develop such a program. One-day programs reach a larger number of students to create STEM awareness while offering several GDOT employees the opportunity to volunteer. Such programs help to cultivate STEM culture within the agency; however they do not offer opportunities for developing strong and long-term relationships. Therefore, this combination will allow the agency to develop a strong pool of students from which to recruit future employees while continuing to enhance STEM culture within the agency and increase transportation-STEM awareness more broadly. Both of these outcomes contribute directly to GDOT's strategic goal theme: "Making GDOT a better place to work will make GDOT a place that works better." Strategic development of a STEM outreach program would allow the GDOT STEM champion to identify and leverage external funding sources to support and sustain the STEM outreach program through other STEM stakeholders such as universities and university transportation centers, the Georgia Department of Education, professional organizations and private consultants.
The Georgia Department of Education considers STEM education an economic imperative and workforce development issue for Georgia and America. The National Academy of Sciences views STEM education and development as essential to preserve the nation's science and technology leadership, but also as a strategic and economic security initiative to optimize the nation's knowledge-based resources by sustaining the most fertile environment for new and revitalized industries and their associated well-paying jobs. Based on these statewide and national strategic priorities, GDOT must view investments in STEM as aligning not only with agency strategic objectives for workforce development and replenishment, but also as a means to advance the state of Georgia and the nation's science and technology efficacy and economic development.
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64

STEM and Our Future Transportation Leaders 6.2 Implementation Guidance
To this end, GDOT will benefit from a program manual on STEM outreach: a how-to manual that supports the implementation of an agency-wide STEM Outreach Program composed of at least one long duration program (i.e., 2-4 weeks) and one short duration program (i.e., 1 day). Among other things, such a manual will detail how the program alternatives outlined in this report can be implemented within the existing organizational structure, culture and resources of GDOT, with specific details on who would champion and coordinate various aspects of the program; where various program elements can be most effectively housed within the agency including the districts; what mechanisms can be used in soliciting employee volunteers, e.g., what incentives aligned with the agency's personnel-related strategic goal can be used to promote employee participation; what are appropriate metrics for demonstrating progress toward achieving this strategic goal; where supporting educational resources can be found for different program elements; a list of funding sources with application deadlines, and specific strategies that have been applied to sustain STEM programs effectively in best practice state DOTs.
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STEM and Our Future Transportation Leaders
References
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Council of University Transportation Centers. (2012). National Transportation Workforce Summit: Summary of Results (p. 28). Washington, D.C.
DeJarnette, N. K. (2012). America's Children: Providing Early Exposure to STEM (Science, Technology, Engineering and Math) Initiatives. Education, 133(1), 7784.
Dorsen, J., Carlson, B., and L. Goodyear. (2006). Connecting Informal STEM Expriences to Creer Choices: Identifying the Pathway. A literature review produced by the ITEST Learning Resource Center, February.
Gallagher, S. (2013). 2013 MONTANA SUMMER TRANSPORTATION (p. 31). Bozeman, MT.
Godazi, K., Goodwin, R., Qiao, F., & Miller, A. (2013). Exposing Minority Students to Careers in Transportation and Science, Technology, Engineering, and Mathematics: Summer Education Programs. Transportation Research Record: Journal of the Transportation Research Board, 2328, 1624.
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67

STEM and Our Future Transportation Leaders
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National Academies. (2014). STEM Integration in K-12 Education: Status, Prospects and an Agenda for Research. The National Academy of Sciences, Engineering, and Medicine, Washington, D.C.
PLTW. (2014). Project Lead The Way. Retrieved from https://www.pltw.org/
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68

STEM and Our Future Transportation Leaders
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69

STEM and Our Future Transportation Leaders
70

STEM and Our Future Transportation Leaders Appendices

STEM and Our Future Transportation Leaders

STEM and Our Future Transportation Leaders Appendix A: State DOT Survey Instrument


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STEM and Our Future Transportation Leaders

STEM and Our Future Transportation Leaders
Appendix C: Catalogue of STEM Programs with State DOT Involvement

STEM and Our Future Transportation Leaders A

1

Agency

2

Alabama DOT

3 Alabama DOT

4 Alaska DOT

5 Alaska DOT
6 Arizona DOT
7 Arizona DOT
8 Arizona DOT
9 Arizona DOT
10 CalTrans
11 CalTrans
12 CalTrans

13 CalTrans
14 Colorado DOT
15 Colorado DOT
16

B Program Name
National Summer Transportation Institute (NSTI)
The Advanced Transportation Institute

C Description

D Duration

The purpose of the NSTI is to create awareness and stimulate interest in middle and high school participants in career opportunities in the transportation industry; enhance Science Technology Engineering Math (STEM) skills; and attract and acquaint a broad and diverse selection of bright minds with the various aspects of the transportation industry.

2-4 weeks

10 students from underrepresented high schools in West Alabama came to The University of 3 days Alabama to learn about transportation careers.

E Target Audience
(Grade/Age)
Middle School or High School (cannot be both)

F Years Running

High School students

G

H

I

Support (Financial/Otherwise)

DOT

Federal

Other

FHWA provides

funding and program

guidelines

Alaska Summer Research Academy ASRA is a two-week residential STEM camp for high school students. It usually consists of 2 weeks

(Civil Engineering Module)

about a dozen modules like robotics, GIS, archeology, biomedicine, field geology, and civil

engineering. Each module pairs experienced practitioners from the public and private sector

with 8-10 high school students. Alaska DOT has sponsored the civil engineering unit for most

of the past 12 years. The past three years we've focused on bridge design and construction,

giving the kids an overview of the engineering process and then guiding them through the

design and construction process to build a full size, modular, portable, ATV bridge with over a

2 ton capacity. They are allowed to use 6' 2x4 dimensional lumber, fasteners, cable and glue

with a budget of $500. This forces them to use a truss or cable-stay design. Each year the

students have successfully designed, built and tested a working bridge. Unfortunately due to

budget cuts at UAF, and questionable management, the ASRA program will no longer be

residential, compromising its statewide and nationwide student participation.

TRAC (Transportation and Civil Engineering) Program
Arizona State University Summer Transportation Institute
Loop 303 Corridor Mentorship
Real World Design Challenge
TRAC (Transportation and Civil Engineering) Program
Garrett Morgan Symposium on Sustainability Summer Transportation Institute (California State University, Los Angeles) Summer Transportation Institute (San Jose State University)

Vision: To deliver educational outreach programs that connect students to the world of

transportation while enhancing math, science, and technology skills. Mission: To introduce

students in grades K-12 to the working world of transportation, especially civil engineering,

and inspire them to consider careers in those fields.

The students traveled across Arizona during the three-week program and experienced

3 weeks

everything from bridge-building basics to lessons in space travel and water transportation. At

ADOT, the students also learned about engineering survey and photogrammetry, traffic

engineering and equipment services.

Female STEM students are paired with female transportation professionals as part of the Women's Transportation Seminar Phoenix Chapter's Transportation YOU program, a handson, interactive mentoring program that offers young girls ages 13 to 18 an introduction to a wide variety of transportation careers. This annual competition gives high school students the opportunity to tackle actual engineering challenges. This annual competition gives high school students the opportunity to tackle actual engineering challenges. Vision: To deliver educational outreach programs that connect students to the world of transportation while enhancing math, science, and technology skills. Mission: To introduce students in grades K-12 to the working world of transportation, especially civil engineering, and inspire them to consider careers in those fields. Middle school students create a project on sustainable transportation

The objectives of the program are to improve STEM skills, provide awareness to middle and 2-4 weeks high school students about transportation careers, and encourage them to consider transportation-related courses of study in their higher education pursuits.

San Jose State University conducted its eleventh annual Summer Transportation Institute Four weeks (STI) during the dates of June 30 and July 25, 2014. STI was offered as a 4-week/5 day nonresidential class for high school students on the campus of San Jose State University, San Jose, California. The STI is organized and run by the Mineta Transportation Institute (MTI), a national transportation policy studies organization established by Congress in 1991. In 2014, the SJSU/MTI program involved a total of 26 high-school students officially enrolled in the program, 94% of which represented Hispanic and Asian ethnicities. San Jose State University is a large, urban university located in the heart of Silicon Valley. The STI is structured in the style and format of a pre-college internship with an emphasis on civic leadership and public policy, which are anchoring principles of the Mineta Transportation Institute. Thus, we seek to offer a balance between academic and field activities designed to motivate high school students to expand their horizons into the field of transportation and be connected to the University in a meaningful way. With a special focus on a college-level three unit environmental education course with an emphasis on science, the equivalent of one week of aviation-oriented learning and related activities, field trips (30% of the curriculum), short talks by experts, and a job skills component, the SJSU/MTI Summer Transportation Institute is designed to be both academically challenging and fun for its participants. Overall, the program's curriculum exposes students to key components of scientific inquiry, new frontiers in some of the major transportation-related topics of the day, and gives them the opportunity to see firsthand "behind the scenes" operations of major Bay Area transportation sites and agencies such as the San Francisco-Oakland Bay Bridge, BART, SamTrans (the San Mateo transit agency), the San Jose traffic control center and the Port of Oakland. Thanks to support from the California Department of Transportation and San Jose State University, the SJSU/MTI STI is again planning to offer students three college credits, the resources of a specialized teacher, and a comprehensive number of field trips.

UCR STEP Conference (Annual Student Conference on Science and Technology Education)
National Summer Transportation Institute (NSTI)

This is a major conference for over 1000 southern California middle and high school students to learn about science and technology. The 2014 event had a major focus on transportation technology. US DOT (and Caltrans) partially supported through UTC program, using NCST funding through UC Riverside. Students will be introduced to careers in transportation through seminars, field trips, and hands-on activities. Participants will be introduced to engineering basics and a variety of transportation systems, learn about career opportunities in transportation and the relevant educational and skill requirements, and have the opportunity to meet people who work in the transportation industry. One overnight field trip may be offered as part of the program.

8 hours 2-4 weeks

TRAC (Transportation and Civil Engineering) Program

Vision: To deliver educational outreach programs that connect students to the world of transportation while enhancing math, science, and technology skills. Mission: To introduce students in grades K-12 to the working world of transportation, especially civil engineering, and inspire them to consider careers in those fields.

Grade 9-12

12 years

Yes

Middle School
Middle School and High School

Middle School *UDGH$JH

Atleast 7 years Yes

High School (Grades: 9-12 / 12 years

YES

Age: 14-18 years-old)

8th grade through 12th grade 4 years straight (13 years to 17 years old)

Yes (Tangential)

Middle School

FHWA provides funding and program guidelines

J Partners (Other Orgs)
US Department of Transportation, Federal Highway Administration, Colleges/Universities/Alabama State/Tuskegee University University of Alabama's Transportation Center for Alabama, University Transportation Center for Alabama (UTCA),Southeastern Transportation Center (STC) University of Alaska Fairbanks

K Employee Involvement
(Description)

AASHTO

Arizona State University Polytechnic

Women's Transportation Seminar Phoenix Chapter's

Female engineers serve as mentors to program partcipants.

Governor's Office of Education Innovation and the Arizona Department of Education AASHTO, Arizona State University

AASHTO, APTA

Mineta Transportation Institute Caltrans employee is contract manager

Colorado State University and Federal Highway Administration (FHWA).
AASHTO

Georgia Tech Infrastructure Research Group

STEM Program Catalog 1

STEM and Our Future Transportation Leaders A

1

Agency

2

Connecticut DOT

17 Connecticut DOT
18 Delaware DOT

B Program Name
National Summer Transportation Institute

C Description

D Duration

The Department's TRAC (Transportation and Civil Engineering) program partnered with

1 week

Central Connecticut State University (CCSU) to host the National Summer Transportation

Institute Program (NSTI), July 28th -August 1st , 2014 to introduce a wide range of

transportation modes to high school students. NSTI is a FHWA initiative that gives students

the opportunity to explore many modes of transportation (aviation, water, highway, transit).

For additional program information and last years' highlights, please visit Central Connecticut

State University's School of Engineering and Technology's webpage at

http://web.ccsu.edu/nsti/ . Twenty-one (21) students from all over Connecticut were

selected to participate in the program this year, and CCSU is hosting these students this

week for various workshops on campus. There were opportunities for students to examine

how the complex transportation system upon which we all rely is designed, built and

maintained through lectures, hands-on engineering laboratory experiments with CCSU

professors, field trips to various DOT transportation hubs (i.e. New London State Pier, CT

Fastrak), and presentations from public and private sector professional transportation

speakers discussing current issues.

E Target Audience
(Grade/Age)

F Years Running

High School student (grades 9- 2 years 12)

Transportation and Civil Engineering TRAC is AASHTO's educational outreach programs, are designed for use in Science,

Ongoing

(TRAC)

Technology, Engineering, and Math (STEM) classes. The hands-on activities introduce

students in grades K-12 to the work world of transportation and civil engineering and inspire

them to consider careers in those fields. Both programs are aligned with national standards

and are currently being aligned with Core Curriculum Standards of Learning. State

departments of transportation work with schools in their state by providing the curricula and

resources for the schools and providing engineers to visit the classrooms to serve as

speakers, teach a hands-on activity, and/or talk to students about the importance of math and

science in preparing for their future. go to http://mmsd.transportation.org/trac_rides/

Middle and High School Students

Engineer in Your Classroom

This feature allows students in grades K-4 to learn about the bridge's construction, without the 1 day

K-4

safety concerns of bringing younger students to the

construction site.

2010 (4 years)

G

H

I

Support (Financial/Otherwise)

DOT

Federal

Other

FHWA

Federal Highway Administration provides funds for yearly membership

J Partners (Other Orgs)

K Employee Involvement
(Description)

Public Officials

Engineers visit schools to discuss bridge design/construction

19 Delaware DOT
20 21 Florida DOT
Florida DOT
22 Florida DOT District 3

Indian River Inlet Bridge Construction Students from across the state have made their way to the Indian River Inlet Bridge

Tour

construction site for the two hour presentation/site tour, where they participate in an

interactive presentation which teaches them about the math, science, technology and overall

uniqueness of the bridge structure. Following the presentation students go on a tour of the

construction site, where they have the once-in-a-lifetime opportunity to see history being

made as crews work to build one of the biggest cable stay bridges on the East Coast.

2 hours

PAEC TRAC (Transportation and Civil Engineering) Program
FloridaLearns STEM Scholars (FLSS) program

Preview of all aspects of DOT and some hands on activities.

two weeks

Vision: To deliver educational outreach programs that connect students to the world of

transportation while enhancing math, science, and technology skills. Mission: To introduce

students in grades K-12 to the working world of transportation, especially civil engineering,

and inspire them to consider careers in those fields.

The Science, Technology, Engineering and Math (STEM) program includes the STEM Field 8 days

Site/ Workplace Experiences that increase opportunities for real-world STEM problem-solving

and research, and academic and career guidance

Grades 5-12 and college

2010 (4 years)

10th thru 12th grades

5 years

High School (Grades 10-12)

23 Hawaii DOT
24 Hawaii DOT
25 Hawaii DOT
26 Idaho DOT
27 Idaho DOT
28 Idaho DOT
29 Idaho DOT
30 Illinois DOT
31 Illinois DOT
32
Georgia Tech Infrastructure Research Group

TRAC (Transportation and Civil Engineering) Program - Summer Transportation Institute

Vision: To deliver educational outreach programs that connect students to the world of transportation while enhancing math, science, and technology skills. Mission: To introduce students in grades K-12 to the working world of transportation, especially civil engineering, and inspire them to consider careers in those fields.

10 days

High school (9-12)

Construction Career Day

This program is designed to provide high school and college students with a first-hand look at 2 days

High school and college

8 years

Yes

career and educational opportunities that are available in Hawaii's construction industry.

Students get hands-on experience with heavy equipment, tools, and vehicles. Students also

visit various booths with educational and interactive activities related to the construction field,

such as electrical and hydraulic systems.

National Summer Transportation The purpose of the NSTI is to create awareness and stimulate interest in middle and high 2 weeks

High school

1 year

Yes

Institute (NSTI)

school participants in career opportunities in the transportation industry; enhance STEM skills;

and attract and acquaint a broad and diverse selection of bright minds with the various

aspects of the transportation industry.

Engineering Girls Day

Introduce girls to engineering encouraging them to study STEM-related subjects and learn

Middle School

how those classroom lessons are applied to real-world problems.

National Summer Transportation Institute (NSTI)

Summer camp to deliver professional and STEM (Science, Technology, Engineering, and Math) based skills and activities to incoming seventh graders.

2-4 weeks

Middle school

STEM Mobile Discovery Lab Summer Science Camp

STEM Mobile Discovery Lab, a refurbished, public-transit bus equipped with the latest technologies enabling up to 22 students at a time to work on STEM projects. Students participated in demonstrations and hands-on projects. The experience helped them explore STEM subjects in new and interesting ways..

Engineering Academies

Engineering Academies are designed to provide realistic application of math and science through instruction and hands on projects that encourage teamwork and problem solving. Engineers from IDOT and the transportation industry volunteer their time to instruct and mentor each academy participant during the sessions.

Engineering Explorer Post Program Provides students practical hands-on experience in the engineering field with additional opportunities to spend time with and be mentored by engineering professionals.

Middle School and High School
young men and women from diverse backgrounds between the ages of 14 to 20

FHWA provides funding and program guidelines

Delaware Department of Education, Skanska

AASHTO

Panhandle Area Educational Consortium (PAEC)
AASHTO, University Hawaii Manao

FDOT served as a Workplace Experience site, playing host to eleven students and four teachers from school districts within District Three's borders: Calhoun, Holmes, Jackson and Washington counties

University of Idaho and Northwest Nazarene University

The department's female transportation professionals encouraged the students and serve as role models.

Discover Technology Inc.
Educational institutions and industry partners across the state

ITD volunteers put on chemistry, geotechnical and structure demonstrations and served as guides for small groups of students Engineers from IDOT and the transportation industry volunteer their time to instruct and mentor each academy participant during the sessions.
IDOT volunteers, mainly engineers and technicians.

STEM Program Catalog 2

STEM and Our Future Transportation Leaders A

1

Agency

2

Illinois DOT

33 Illinois DOT

34 Illinois DOT

35 Illinois DOT
36 Iowa DOT
37 Iowa DOT

B Program Name

C Description

D Duration

Illinois Innovation Talent (ILIT) program. National Summer Transportation Institute (NSTI)
Real World Design Challenge
TRAC (Transportation and Civil Engineering) Program AASHTO TRAC & RIDES program

The goal of the ILIT program is to demonstrate how industry-sponsored problems can exemplify the Race to the Top STEM Learning Exchange functions at the middle and high school level where interdisciplinary teams of students collaborate on real-world problembased learning (PBL) challenges designed to improve student achievement and increase college and career readiness. NSTI is designed to introduce secondary school students to all modes of transportation careers and encourage them to pursue transportation-related courses of study at the college or university level. This program promotes academic excellence and prepares future leaders in society. The purpose of NSTI is to promote awareness of Science, Technology, Engineering and Math (STEM) educational and career opportunities among disadvantaged and at-risk middle and high school students around the country.

2-4 weeks

The Real World Design Challenge (RWDC) is an annual competition that provides high

school students, grades 9-12, the opportunity to work on real world engineering challenges in

a team environment. Each year, student teams will be asked to address a challenge that

confronts our nation's leading industries. Students will utilize professional engineering

software to develop their solutions and will also generate presentations that convincingly

demonstrate the value of their solutions. The RWDC provides students with opportunities to

apply the lessons of the classroom to the technical problems that are being faced in the

workplace.

Vision: To deliver educational outreach programs that connect students to the world of

2 weeks

transportation while enhancing math, science, and technology skills. Mission: To introduce

students in grades K-12 to the working world of transportation, especially civil engineering,

and inspire them to consider careers in those fields.

You can find program details on the AASHTO TRAC & RIDES website. We are joining the school year

AASHTO program and are coordinating with our university transportation center, InTrans at

Iowa State University to launch this program at a few area schools as a first step pilot.

E Target Audience
(Grade/Age) Middle School and High School High school
High school
Middle School High school age

ad hoc presentations to area schools DOT employees have given presentations at nearby schools on various aspects of the DOTs ongoing, primarily k-12, plus college students

from DOT employees

business and STEM careers for many years.

school year

F Years Running
Since 2008 (6 years)

G

H

I

Support (Financial/Otherwise)

DOT

Federal

Other

FHWA provides funding and program guidelines

1 month

Yes

more than 26 years

38 Iowa DOT Office of Aviation

Change the Equation (CTEq)

39 Kansas DOT

Flying Classroom

40 Kansas DOT

TTMaSA

41 Kansas DOT Aviation Division

Fly Kansas Air Tour

To improve science, technology, engineering and math (STEM) teaching, inspire student appreciation and excitement for STEM programs and careers, and achieve a sustained commitment to improving STEM education from leaders in business, government and education Program discusses how STEM (Science, Technology, Engineering and Mathematics) is used 1 day in aviation. The Flying Classroom event includes a career fair at which hundreds of high school students will learn about all the options aviation has to offer. Donnelly College, located in Kansas City, Kansas, introduces high school students to diverse 5 weeks modes of transportation (water, air, land) and the array of career opportunities within the industry. The Air tour flew to nine communities in three days to highlight aviation education and career 3 days opportunities to approximately 600 students in the three day period.

High School

Grades 9-12

6 years

Primarily grades 7-12 with some younger students

1 year

42 Kansas DOT Aviation Division

Flying Classroom Career Exploration Working with Barrington Irving's Flying Classroom, we hosted 300+ students at the National

Fair

Center for Aviation Training for a career exploration fair that featured motivational speakers

and 35 aviation and STEM companies for an interactive career fair.

full school day

grades 11 & 12

1 year

43

Kentucky Transportation Kentucky Engineering Exposure

Cabinet

Network

44

Kentucky Transportation TRAC (Transportation and Civil

Cabinet

Engineering) Program

45 Louisiana DOTD

RIDES

46 Louisiana DOTD

TRAC

47 Georgia Tech Infrastructure Research Group

KEEN is a unique partnership between the Commonwealth of Kentucky's school system and annual the Kentucky Transportation Cabinet. The KEEN Program places engineers employed with the Cabinet in classrooms all across Kentucky. Engineers visit schools throughout the state to discuss the applications of math and science in real world situations. They provide insights into the opportunities and challenges available to students pursuing studies in the field of engineering. http://transportation.ky.gov/Education/Pages/KEEN.aspx

grade school to college

Since 1991 (23 years)

Vision: To deliver educational outreach programs that connect students to the world of transportation while enhancing math, science, and technology skills. Mission: To introduce students in grades K-12 to the working world of transportation, especially civil engineering, and inspire them to consider careers in those fields.

4 weeks

High school

RIDES (Roadways Into Developing Elementary Students) is an AASHTO/Mississippi

Two Days of

education outreach program designed to interest K-8 students in transportation careers while Training and the

improving their math and science skills. Students utilize critical thinking skills to solve real teachers then

world problems and learn about careers in the transportation industry especially civil

implement in their

engineering. The curriculum is aligned with the National Standards for Math and Science. schools

STEM, 21st Century Skills and Core Curriculum Standards. Teachers attend two days of high

energy training conducted by National Board Certified Teachers. This module contains a

curriculum as well as a large trunk of resources for the teacher to use in the classroom to

conduct the activities.

Elementary and Lower Middle School Teachers

Three years in Louisiana

TRACTM (Transportation and Civil Engineering) is a hands-on, educational outreach program Two Days of

Upper Middle and High School Three years in

of the American Association of State Highway Transportation Officials (AASHTO). The

Training and the Teachers

Louisiana

TRACTM program is designed for integration into science, technology, engineering, and math teachers then

(STEM). State Departments of Transportation provide the program free of charge to middle implement in their

and high schools in their state. Vision: To deliver educational outreach programs that connect schools

students to the world of transportation while enhancing math, science, and technology skills.

Mission: To introduce students in grades K-12 to the working world of transportation,

especially civil engineering, and inspire them to consider careers in those fields. TRAC has

eight modules which engage students in solving real-world problems while connecting them

to the work world of transportation. Students design bridges, build magnetic-levitation trains,

plan a city or learn about environmental issues that impact transportation. In addition to

providing a tool for teachers to improve math and science instruction in middle and secondary

schools, TRAC improves work force diversity which helps to resolve one of the most pressing

problems faced by the transportation today: a critical shortage of civil engineers.

Not direct financial support, but extensive support through time and resources
Not direct financial support, but extensive support through time and resources
Yes

Yes

FHWA

Yes

FHWA

J Partners (Other Orgs)
The Illinois Department of Commerce and Economic Opportunity, the Illinois State Board of Education

K Employee Involvement
(Description)

University of Illinois at Chicago (UIC), Southern IL - Carbondale

AASHTO, Southern IL Carbondale
DOT employees have given presentations at nearby schools on various aspects of the DOTs business and STEM careers for many years.
Kansas Commission on Aerospace Education

Commonwealth of Kentucky's school system
Kentucky State University Frankfort, KY

KEEN provides an opportunity for the Cabinet and local schools to work together, allowing Transportation Cabinet engineers to interact with students in their own communities. In addition, the KEEN Program follows many

STEM Program Catalog 3

STEM and Our Future Transportation Leaders

A

B

C

D

E

F

G

H

I

1

Agency

2

Program Name

Description

Duration

Target Audience (Grade/Age)

Years Running

Support (Financial/Otherwise)

DOT

Federal

Other

Maryland State Highway TRAC (Transportation and Civil

Vision: To deliver educational outreach programs that connect students to the world of

Middle school and high school Since 1992

Yes

Administration (MSHA) Engineering) Program

transportation while enhancing math, science, and technology skills. Mission: To introduce students in grades K-12 to the working world of transportation, especially civil engineering,

and inspire them to consider careers in those fields. 48

Maryland State Highway Summer Transportation Institute

Administration (MSHA)

49

Michigan DOT

STEM in Flight

50

Michigan DOT

Youth Development and Mentoring

The program introduces students to STEM careers in transportation and related fields. MSHA 4 weeks provides and facilitates visits to sites and provides speakers from the transportation industry to speak with youth. A professional development workshop for teachers demonstrating how Aviation can support 1 day STEM curriculum. The mission of the Michigan Department of Transportation Youth Development and Mentoring

High School
K-12 Teachers High School

17 years

Program (YDMP)

Program (YDMP) is to prepare a diverse workforce for the future by providing participants

with opportunities to pursue higher education, personal growth, and transportation careers.

Teens will be assigned to a crew, which is made up of one supervisor and two to three

workers. Some of the expected responsibilities include litter pickup, erosion control, park and

rest area maintenance, weed and brush cutting. 51

Michigan DOT

Transportation and Civil Engineering Hands on math/science/social science program designed to interest students in the

(TRAC)

engineering curriculum.

continued

6th - 12th grade

9 years

Yes

52 Michigan DOT
53

Youth Development Mentoring Program

Hiring high risk students & proving them with the tools to obtain a successful career.

summer months *UDGH

6 years

Yes

Minnesota DOT

National Summer Transporation Institute's Tribal Summer Transporation career awareness

The NSTI mission is an educational initiative designed to prepare students (particularly, minorities and women), to become an important part of the transportation workforce of the 21st century by focusing on science, technology, engineering, and mathematics through curriculum development and other enrichment activities. Administers a Tribal Summer Transportation career awareness four- and three-week non-residential overnight camp at Fond du Lac Tribal Community College and Leech Lake Tribal College Primary goal in Minnesota is to introduce Native American youth from Grades 8 to 11 to careers in the

3 or 4 weeks

Grades 8 -11

7 years

54 Minnesota DOT

Phoenix Internship Program

transportation industry. The Minnesota Department of Transportation's (MnDOT) Phoenix Internship Program

1 year

11th and 12th graders

9 years

Yes. 11.20/hour

partners with area Project Lead The Way high schools (www.pltw.org) providing internship opportunities for high school students juniors and seniors enrolled in pre-engineering courses.

Phoenix interns gain on-the-job work experience in a variety of areas like highway design, traffic, surveys, materials, data analysis, etc. in various MnDOT offices and districts

statewide. They work full time in the summer and part-time during their senior year earning $11.20 per hour. If a Phoenix intern chooses to pursue engineering as their major in college

they maybe eligible to transfer to MnDOT's student worker program for college students. Minimum qualifications of the internship are students must be taking pre-engineering courses

at a certified PLTW school and have a minimum GPA of 3.0. 55

Mississippi DOT

RIDES (Roadways In Developing Elementary Students)

Education outreach program designed to interest K-8 students in transportation careers while Teachers attend K-8 improving their math and science skills. Students utilize critical thinking skills to solve real two days of hands-

world problems and learn about careers in the transportation industry especially civil engineering. The curriculum is aligned with the National Standards for Math and Science.

on training

STEM, 21st Century Skills and Core Curriculum Standards. Teachers attend two days of high energy training conducted by National Board Certified Teachers.

J Partners (Other Orgs)

K Employee Involvement
(Description)

American Council of Engineering DOT Official serves as Companies; Maryland Asphalt program director Association; Johns Hopkins University; Morgan State University

Square One Education Network

Federal Highway Administration (FHWA), Private engineering firms

Serve as mentors to offer mentoring activities and sessions to teach job and life skills

U.S. Department of Transportation, FHWA, Mn/DOT's Office of Civil Rights
Project Lead The Way (PLTW) High Schools

AASHTO/Mississippi Department of Education, Private sector professionals

Volunteer transportation professionals and civil engineers from the DOT work directly with teachers and students in the classroom to support the TRAC Curricula,

56

Mississippi DOT

Mississippi Summer Transportation MSTI program at JSU has been evolved and growing over the years. Currently MSTI is a 3- 3 weeks in June highschool students

6 years

Institute (MSTI)

week on-campus residency program enrolling 25-30 highschool students each year. The

program exposes the students in STEM environment and career opportunities in

57

transportation.

Missouri DOT

Annual Youth Transportation

The conference exposes students from across Missouri to the numerous career opportunities 6 days

Middle School and High

Conference

in the field of transportation and is packed with fun and exciting academic, career

School

development and social activities. Students apply math, science, and computer concepts

learned in school to transportation related problems. The academic curriculum includes

sessions on math modeing, applied physics, magnetic levitation, public administration, and

safety. Other activities include field trips, office/site tours, and speakers from various divisions

58

within MoDOT and related organizations.

Montana DOT

Summer Transportation Institute

The 2014 Summer Transportation Institute at MSU involved students in a comprehensive 2 Weeks

High School Sophomore,

7 years

Yes

academic program. Topics covered included traffic engineering and planning, infrastructure

Junior, Senior

design, aviation, safety and human factors. STI participants learned about career

opportunities from professionals representing public and private sector transportation

organizations as well as academia. Hands-on activities related to each topic helped to

develop students' problem-solving skills and reinforced what they had learned. In addition to

classroom activities, students participated in a number of team design/build projects,

including crash attenuator, glider, and balsa wood bridge competitions. The team projects

served to build teamwork and communication skills while fostering creative problem solving.

59

Nebraska Department of Engineering Education Excellence Teachers develop lessons with engineers and present them to the students. There are also 1 or 2 days

Middle and high school

6+

Roads (NDOR)

Institute

site tours and interactions with professionals.

60 New Hampshire DOT Disability Mentoring Day
61 New Hampshire DOT Inside the DOT
62

Students with disabilities (mentees) are matched with workplace mentors according to

1 day

expressed career interests. Mentees experience a typical day on the job and learn how to

prepare to enter the world of work. Employers gain an increased awareness that people with

disabilities represent an overlooked talent pool. Disability Mentoring Day is a program of the

American Association of People with Disabilities.

Inside the DOT tour allows high school students the opportunity to tour a few of our buildings. 1 day

They will also be able to listen to presentations in about ten different bureaus and learn more

about the transportation industry.

High School High School

First Year

Yes

1 year

Yes

Lincoln University

USDOT

Nebraska's

University of Nebraska-Lincoln

Coordinating

Commission for

Postsecondary

Education, Mid-

America

Transportation

Center; Nebraska

Dept of Ed; Central

Community College;

Center for Research

on Children, Youth,

Families & Schools

Employees serve as mentors for the day

Employees present to students

Georgia Tech Infrastructure Research Group

STEM Program Catalog 4

STEM and Our Future Transportation Leaders A

1

Agency

2

New Hampshire DOT

63 New Hampshire DOT

64 New Hampshire DOT
65 North Carolina DOT
66 North Carolina DOT

67 Oregon DOT

68 Pennsylvania DOT
69 Pennsylvania DOT
70 Pennsylvania DOT
71 South Carolina DOT

B Program Name
Stormwater Table Presentation

C Description

D Duration

The Stormwater Education Program was developed to educate students, municipalities, the 1 hr community, and NHDOT employees on stormwater pollution. It is a great way for individuals to learn more about pollution and stormwater and a chance for everyone to become more involved in doing their part to keep our water clean. During the presentation, participants will have an opportunity to interact with our two hands-on water table demonstrations.

E Target Audience
(Grade/Age)

F Years Running

Elementary and Middle School 5-10years

Yes

G

H

I

Support (Financial/Otherwise)

DOT

Federal

Other

J Partners (Other Orgs)

K Employee Involvement
(Description)

Strategic Highway Safety Plan

The SHSP is a statewide-coordinated safety plan that provides a comprehensive framework Unsure for reducing highway fatalities and severe injures on all public roads. One of the nine critical emphasis areas of the SHSP is adolescent drivers. This project will address outreach and education of teen drivers and their parents in an effort to reduce teen crashes. This outreach will include development of peer to peer teen safety groups in fifteen schools as well as a tool box and web site to provide resources to parents and teens

High School

First Year

Yes

TRAC

TRAC (TRAnsportation and Civil engineering) is a hands-on education program designed for use in science, math, and social science classes. By engaging students in solving real-world problems such as bridge building, TRAC connects students to the work world of transportation and inspires them to consider careers in transportation and civil engineering.

Competition is 1 day, program is a couple months

High School

Many years,

Yes

unsure of how long

Model Bridge Building Competition Introduce a Girl to Engineering Day

The competition is designed to create a greater awareness of careers in transportation,

Nov-April

construction, engineering and the services provided by the NCDOT. Working in teams,

students will look at the methods of brainstorming ideas, designing a diagram, constructing

the model and will have the satisfaction of presenting the results of their ideas to a panel of

judges.

A national movement to help girls understand the creative and collaborative nature of

~5 hours

engineering and how engineers contribute to changing the world. "Introduce a Girl to

Engineering Day" strives to promote engineering as a desirable career option to young adults.

Students have the opportunity to participate in hands-on transportation related engineering

activities and also participate in a question and answer session with some of the department's

female engineers from various disciplines. NCDOT engineers also share the daily duties and

skills necessary for their jobs while encouraging young women to maintain their math and

science skills, which are necessary to enter programs in college.

Middle school and high school K-12

Carolina Associated Carolina Associated General General Contractors Contractors sponsor awards

Center for Transportation and Lead hands-on activities; share

the Environment (CTE) at North daily duties and skills

Carolina State University

necessary for their jobs

Investigations In Transportation:

Through an Oregon Transportation and Research Consortium Grant, the Elementary

18 months

Oregon Transportation Research and Investigations in Transportation project seeks to harness the professional expertise,

Education Consortium (OTREC)

experience, and enthusiasm of transportation sector STEM workers by creating a mechanism

and set of protocols by which they will engage with elementary school teachers to develop

and implement instructional units. These STEM connected instructional units and lessons will

allow students to explore and investigate issues central to transportation. Units will

incorporate and enhance the content and practice standards outlined by the Common Core

State Standards-Math and Next Generation Science Standards, and rely heavily on the

instructional and curriculum expertise and experience of classroom teachers to develop age

and interest appropriate units of study. This collaboration will result in the development of

Investigations in Transportation instructional units that provide students with rich, engaging

learning opportunities set in the context of real-world problems such as sustainability, health,

and safety. ODOT provided expertise during the unit planning and will be providing

transportation professionals as content expertise support and unit implementation for 6

different classrooms.

5th Grade

9 months

ODOT provided expertise during the unit planning and will be providing transportation professionals as content expertise support and unit implementation for 6 different classrooms.

STEM (High School) STEM (Middle School) STEM/ ACE

The students were exposed to Geopatial Technologies and Microprocessor and their role in Transportation Systems.How nanotechnologies are fueling advancements in transportation. Field trips included Philadelphia Airport Hub and PennDot Material lab

2 weeks

Science, Technology, Engineering, and Mathematics through activities. Classroom curriculum 3 weeks

include highway design, transportation planning, traffic signal timing, transportation logistices,

public transit, reailroad transportation and traffic flow. There were trips to National Crash

Analysis Center, National Highway Traffic Safety Administration for automobile and highway

safety research.

Students received weekly instruction in ecology and environmental biology. The ACE

3 weeks

Academy was offered the 2nd week of the program. There were planned trips to Philadelphia

International Airport, Dover Air Force Base, SEPTA and the Independence Seaport Museum

High School Middle School High School

First year 5+yrs 5+yrs

Summer Transportation Institute (STI)

Program introduces high school students to transportation modes and encourages them to pursue related courses in college. The NSTI provides career orientation and educational experiences to motivate secondary school students toward professions in the field of transportation.

1 month

High School

1993 -

FHWA provides funding

FHWA South Carolina Division Office; South Carolina State University

72 South Dakota DOT

Aviation Art Contest

73 Nevada DOT
74 Nevada DOT

TRAC (Carson School District) Carson School District - GATE

Each year the Federation Aeronautique Internationale (FAI) Association creates a theme for

an art contest in an effort to motivate and encourage young people to become more familiar

with and participate in aeronautics, engineering and science. The FAI then invites its member

nations to submit their best artwork for international recognition. In the United States, the

National Association of State Aviation Officials (NASAO) is the main organizer of the contest.

Every Fall, South Dakota schools will receive an invitation to participate in the contest by

submitting their interpretation of the aviation theme. The South Dakota winners are

announced and displayed every spring at the SD Airports Conference, in the South Dakota

Pilots Association newsletter and on this website. Every child receives a certificate of

participation and the winners receive prizes with an aviation or art theme and a laminated

copy of their work.

The Carson School District has developed a pre-engineering curriculum for high school

school year

students that includes interaction with NDOT engineers and using TRAC moduals. They also

complete in the AASHTO Bridge Buidling Competition.

5 two hour moduals are presented to students by various engineering and technical personnel. Students are exposed to both math, science and engineering principles that are incorporated into fun, hands-on activities.

school year

9-12 grades 3-5 grades

75

8+

National Association

of State Aviation

Officials

2 years 8 years

NDOT purchases TRAC PAC's

Federation Aeronautique Internationale (FAI) Association through the eNational Association of State Aviation Officials (NASAO); Ssouth Dakota Pilots Association
We conduct a series of classroom presentation of various civil engineering functions that apply to transportation. i.e. materials testing; bridge design; mapping; safety, roadway design.

Georgia Tech Infrastructure Research Group

STEM Program Catalog 5

STEM and Our Future Transportation Leaders A

1

Agency

2

Nevada DOT

76 Nevada DOT
77 Texas DOT

78 Texas DOT

79 Texas DOT
80 Texas DOT

81 Texas DOT
82 Utah DOT
83 Utah DOT
84 Utah DOT
85 Utah DOT
86 Vermont Agency of Transportation
87 Vermont Agency of Transportation
88 West Virginia Department of Transportation (WVDOT) - Division of Highways
89

B Program Name Carson School District - Project Challenge
Summer Transportation Institue Banquette On The Move!
Houston National Summer Transportation Institute
North Texas Girl Scout Council On the Move! Prairie View A&M Summer Transportation Institute
Texas Summer Aviation Institute Bennion Elementary Afterschool Program Girls in Transportation Workshop AASHTO TRAC and Rides WTS Transportation YOU Program National Summer Transportation Institute Transportation Systems Academy TEDPP (TSA)
West Point Bridge Design Competition

C Description

D Duration

Middle school students select a project that involves engineering principles. NDOT staff help school semester with the basic design and review of project and provide supplemental field trips to explore both research and construction of engineering design projects.

E Target Audience
(Grade/Age)
7-8 grades

F

G

H

I

Years Running

Support (Financial/Otherwise)

DOT

Federal

Other

3 years

Provide transportation for field trips and interacts with students in the classroom.

J Partners (Other Orgs)

K Employee Involvement
(Description)
NDOT staff help with the basic design and review of project and provide supplemental field trips to explore both research and construction of engineering design projects.

The STI is part of an FHWA grant that NDOT supports and provides funding up $65K per 2 weeks summer. It is a two-day program that provides high school students with experience living on a college campus and attending lecture/field trips. All expenses are paid through the grant.

9-12 grades

4 years

Yes

Hosted by the Banquette Independent School District (ISD), this program of interactive modules was designed to provide a visual understanding of mathematics and encourage teamwork. Students were divided into teams of four and participated in four modules.

1.5 hours

6th - 8th Grade At Risk Students

2006

This four week program is designed to attract secondary students to and enhance their interest in careers in transportation and improve mathematics, science, communication and technology skills. Through the course of the program, all modes of transportation are addressed and augmented with hands-on technical activities, lectures by transportation professionals and field trips to such places as TxDOT District Offices, TranStar, Houston METRO, Port of Houston, airport operation and maintenance facilities, and the Texas Transportation Institute research facilities.

2-weeks

A "Girl Scout Council Badge" was created as a troop level activity that would cover local and ~1 day regional transportation and transit. The first phase involved learning about transportation in their community during a troop meeting by reading news and books. The second phase was a learning field trip to key places in Dallas attended by 62 Brownies and Girl Scouts.

Secondary students

1999 thru 2010 Yes

3rd and 4th Grade Girl Scouts

2007

Southwest Region UTC & NSF funding

Texan A&M University Kingsville; American Society of Civil Engineers (ASCE); Banquette Independent School District (ISD); Southwest University Transportation Center (SWUTC) Center for Transportation Training and Research at Texas Southern University (TSU); Advisory Board includes representatives from government and public agencies, academic institutions, and industrial partners; Southwest University Transportation Center (SWUTC) North Texas Girl Scout Council; Dallas Area Rapid Transit (DART); Texas Transportation Institute (TTI)

Classroom lectures, hands on activities, educational and recreational field trips in addition to 2 weeks

11th-12th grade/16-18 years 15 years

Yes

evening and weekend enhancement and recreational activities. The ATLAS Center at TTI

provides support for existing STI programs. These include one program established more

than a decade ago to help minority, female, first generation to college, and other

underrepresented high school students entering 11th and 12th grade develop an interest in

attending college, choosing STEM majors and ultimately choosing transportation careers. The

program serves approximately 30 students each year. The STI Scholars program

developed with UTC for Mobility (UTCM) funding provides a second-year experience for

invited students to receive more in-depth programming and career counseling. The ATLAS

Center at TTI hosts STI students by offering tours of TTI and TAMU facilities, interactive

discussions, and hands-on activities with researchers and graduate students. The ATLAS

Center also provides support for further developing the recruiting network and follow-up with

graduates of the program. Each year as part of the STI program, TTI guides a group of 11th

and 12th grade students on a tour of the Institute, conducting presentations and

demonstrating various facilities including the Environmental and Emissions Chamber, the

Hydraulics, Sedimentation and Erosion Laboratory, the Driving Simulator and the Visibility

Research Laboratory. The students also witnessed a crash test, conducted at the Riverside

Campus. In addition, the program also includes a visit to NASA and a highway construction

company, as well as, classroom lectures that introduce the students to highway planning, the

railway industry, water transportation and traffic control.The program is free to the students,

funded and supported by Federal Highway Administration (FHWA) through Texas

Department of Transportation and Department of Civil & Environmental Engineering at Prairie

View A&M University.

FHWA

Prairie View A&M University

DOT provided guest speakers; hosted field trips

This program ran from summer 2005 to summer 2006. To attract students in to aviation careers. This core curriculum included speakers, field trips, videos, and hands on activities highlighting the importance of aviation and exposure to aviation career opportunities.

2 weeks

10 & 11th grade

Ran for two years Yes (2005 & 2006)

teaching STEM based topics twice a week to 10-12 students. lesson plans come from The

Elementary school

American Association of State Highway and Transportation Officials (AASHTO) Roadways

into Developing Elementary Students (RIDES) education outreach curriculum support

program

UDOT is partnering with the Women's Transportation Seminar (WTS) to facilitate a one day 1 day

Elementary school

workshop on May 22, 2014 at the Region 2 Headquarters. The workshop will focus on helping

grade school age girls on becoming excited about a career in Transportation related STEM

fields.

These are two programs sponsored and coordinated through the American Association of School Year

K-12

State Highway Transportation Officials. more info can be found at transportation.org

Program Information can be found through contact with WTS.

monthly during Young Women - elementary

school year

age

NSTI - In Vermont this is a two week residential program DOT sets the agenda, and aligns it two weeks

grades 10-12

with their EO program interests. The UVM TRC ran the program under contract from 2009 -

2012; The DOT now operates it independently.

http://transctr.w3.uvm.edu/wd-pages/transportation-systems-academy-tsa/ Pilot project

90+ hour

Grades 11-12 primarily

under TEDPP in partnership with CTE programs, Community High School of Vermont and certificate program

VTrans. Resulted in certificate recognized by VTrans as a credential valid for employment integrated into

consideration. DOT worked cooperatively to design curriculum and align it with internal DOT regulary

training; provided trainers; provided field site visits and job shadowing.

curriculum

Provides material to support program

Unknown

Yes

several years

In kind support

a number of years

2009-2013

Some private sector Bennoin Elementary School funding

Employees teach lessons

WTS

Statewide contest; Realistic, hands-on, engaging introduction to engineering, bridges and ~ 6 months

Middle school, high school

Yes

transportation design concepts

WV Section of ASCE West Virginia Younger Member

(Young Member

Forum of ASCE; WV

Forum); Nick J.

Department of Education; Nick J.

Rahall Appalachian Rahall Appalachian

Transportation

Transportation Institute

Institute; Society of

American Military

Engineers; Bridge

Walk

Georgia Tech Infrastructure Research Group

STEM Program Catalog 6

STEM and Our Future Transportation Leaders


STEM and Our Future Transportation Leaders
Appendix D: Examples of STEM Program Impact Assessment Approaches

1.PrairieViewA&MUniversitySTIScholarsProgram

ThePVAMUSTIhasbeenoccurringannuallyforabout14years,supportedbytheTexasDOT.ThePVAMU STIScholarsprogramisanextensionoftheSTIthattakespreviousSTIparticipantsthroughamoredetailed preengineering curriculum with the objective of creating interest in the field of transportation engineering among high school students in underrepresented groups and producing highly qualified transportationprofessionals.Thefourcoreobjectivesoftheprogramwereto:(i)increasethenumberof studentswhowouldpursuecareersinthetransportationindustry;(ii)attractadiversegroupofstudents fromtheunderrepresentedpopulation;(iii)exposestudentstoresearchandrealworldengineeringissues relatedtothetransportationindustry;and(iv)provideeducationalenrichmentbyofferingscience,math, engineering, and technology courses that will assist students in their academic studies (Kommalapati, Ramalingam, & Stockton, 2012). Several methods were employed to capture data to measure the program'seffectiveness,includingjournalentries,academicquizzes,andevaluationsurveys.

AprogramreportbytheUniversityTransportationCenterforMobilityattheTexasA&MTransportation Institute (Kommalapatietal.,2012)showsthatwhileacademic quizzes evaluatedtheeffectivenessof providingeducationalenrichmentinSTEMcourses,journalentrieswereusedtomeasurehowwellthe programobjectivesofexposingstudentstoresearchandrealworldengineeringissues,andattractinga diversegrouptothetransportationindustrywereachieved.However,datafromthesetwoevaluation methodswerenotpresentedtoshowtheimpactthattheseelementsoftheprogramhadonparticipants. On the other hand, evaluation surveys completed weekly and at the end of the fourweek program producedquantitativeresultstomeasuretheprogram'seffectiveness.A4pointLikertscale(where4is "strongly agree" and 1 is "strongly disagree") was used to measure participants' attitudes toward the classroom,recreational,andeducationalenhancementactivities,thefieldtrips,guestspeakers,andstaff. Averagescoresoftheendofprogramevaluationrangedfrom3.14to3.82,indicatingthatstudentsfelt thattheactivitiespresentedwereworthwhile(Kommalapatietal.,2012).

Takingprogramevaluationsastepfurther,effortsweremadetotracktheprogressofformergraduates oftheSTIScholarsprogramtomonitortheireducationandcareersbeyondtheprogram.Theresultsof theevaluationfoundthat100percentoftheprogramgraduatesthatweretracked(sevenofeight)were pursuinghighereducationandmorethan70%(fiveofseven)werepursuingSTEMrelatedfieldsofstudy (Kommalapatietal.,2012).





2.MontanaSummerTransportationInstitute
TheMontanaSTIisatwoweekresidentialeducationprogramdesignedtoincreasehighschoolstudents' interestsincareersinthetransportationindustry.The2013program,whichwasheldonthecampusof Montana State University (MSU), included eighteen students from ten counties and three states. The objectives of the program were to expose high school students to transportation careers, increase students' awareness of the significance of transportation, improve participants' understanding of the impacts that transportation professionals make in our society, increase students' understanding of the needforinnovativeideasintransportation,andhelptodevelopcommunicationandcollaborationskills through teambuilding, recreational, and classroom activities; and provide college and career advice (Gallagher,2013).SimilartothePVAMUprogram,theMontanaSTIprogram'seffectivenessinmeeting theestablishedobjectiveswasmeasuredusingdailyjournalsandprogramevaluationsurveys,whichwere conducteddailyandattheendoftheprogram.
The daily journals included both a narrative section for the students to convey their feelings about the programactivitiesandasectionwithquestionsonthespecifictopicandtheknowledgegainedfromthe coursematerialscoveredinthatday'sactivities.Thismixedmethodapproachprovidedquantitativedata toevaluatetheprogram'seffectiveness,asopposedtothenarrativeonlymethodofthePVAMUprogram. TheMontanaSTIdailyevaluationsurveysassessedhoweffectivetheprogramcurriculumwasincovering allofthegiventopicsandhoweffectiveeachactivitywasinmeetingtheprogram'sobjectives.Anendof programsurvey,whichuseda5pointLikertscale(where5isstronglyagreeand1isstronglydisagree) wasalsoconductedtoevaluatethesuccessoftheoverallprograminmeetingtheobjectives.Thissurvey alsoprovidedinsightontheimpacttheprogramhadonstudents'attitudestowardengineering,MSU,and collegeandcareerchoices.Withaveragescoresrangingfrom4.18to4.72,itwasclearthattheprogram wasrelativelysuccessfulinmeetingitsobjectives(Gallagher,2013).

Seventeenoftheeighteenparticipantscompletedtheoverallprogramevaluation.Seventysixpercent reportedincreasedconfidenceinhandlingcollegecoursesandagreedthattheyimprovedtheirabilityto workonteamprojects.Inaddition,88%agreedthattheSTIhelpedimprovetheirproblemsolvingskills and helped them prepare for college, and that they had better understood the significance of transportation professionals' impacts on society and the importance of innovation in transportation. Furthermore,94%reportedincreasedunderstandingoftheimportanceofvarioustransportationmodes, and increased confidence in making college and career choices. All the participants surveyed (100%) agreed that they learned more about transportation careers, MSU, and engineering as a field overall (Gallagher,2013).Theresultsoftheevaluationshowedthattheprogramwaseffectiveinachievingits objectives.





3.UniversityofMemphisTransportationEngineeringCareers(TREC)Program
TheUniversityofMemphisTransportationEngineeringCareers(TREC)Program,anoutgrowthoftheGirls Experiencing Engineering (GEE) program, is a weeklong nonresidential education program designed to increase high school students' interests in careers in the transportation industry. Since its inception in 2010, 216 students (both male and female) have participated in the program, which is held on the UniversityofMemphiscampus.Theobjectivesoftheprogramweretoexposehighschoolstudentsto transportation careers; increase students' awareness of the significance of transportation; show links between mathematics, science, and engineering by providing handson, interactive activities in the transportationindustry;increasestudents`understandingofthecourseworknecessarytopursueacareer in the transportation industry; and help to develop communication, collaboration, and leadership skills through teambuilding, recreational, and classroom activities (Ivey et al., 2014). The program's effectivenessinmeetingtheseobjectiveswasmeasuredusingintroductoryandexitprogramevaluation surveys,dailyjournalsentries,focusgroupstudies,andalongitudinalsurvey.
The introductory and exit surveys assessed participants' changes in perceptions and attitudes toward engineering, while daily journal entries and focus group studies were used to provide information concerningtheeffectivenessofdailyactivitiesandotherprogramcomponents.Alongitudinalstudywas conducted to provide data concerning the longterm effects of the program on the participants' educationalandcareerchoices(Iveyetal.,2014).
Theexitprogramsurveyuseda5pointLikertscale(where5is"stronglyagree"or"veryimportant"and 1 is "strongly disagree" or "not important"), providing insight on the impact the program had on participants.Thesurveywascompletedby149participantswiththefollowingresults:45%reportedthat programssuchasTREChelptoinfluencecollegemajorandcareerchoices;76%indicatedthattheyare more likely to major in engineering because of the program; 88% agreed that TREC improved their problemsolving skills; and 93% agreed that TREC helped them understand links between real world problemsandmathandscienceskills(Iveyetal.,2014).
The online longitudinal survey included a series of multiple choice and Likertscale questions, which discussed current grade level; intended or current major; influential factors in college/career decision; impact of TREC on STEM awareness; and importance of types of programs offered by TREC, to name a few.Ofthe44participantsthatresponded,21statedthatprogramssuchasTRECplayedaveryimportant roleintheirdecisiontopursueaSTEMcareer.Twentyoneofthe44respondentswereenrolledincollege atthetimeofthesurvey,and90%ofthatnumberwereenrolledinaSTEMmajor(Iveyetal.,2014).
TheseresultsindicatedthattheTRECprogramwasveryeffectiveinmeetingitsobjectivesandmadea significantimpactonthoseparticipatingintheprogram.Furthermore,theprogramsuccessfullyexposed participants to transportation careers, increased their awareness of the significance of transportation, andincreasedtheirunderstandingofthecourseworknecessarytopursueacareerinthetransportation industry(Iveyetal.,2014).



STEM and Our Future Transportation Leaders
Appendix E: GDOT STEM Panel Meeting PowerPoint Slides

4/30/2015
STEM and Our Future Transportation
Leaders
GDOT STEM PANEL MEETING
Adjo Amekudzi-Kennedy, Ph.D., Ann Xu, Ph.D., Audrey Leous, Margaret Akofio-Sowah, Stefanie Brodie, Valerie Curtis November 21, 2014
AGENDA
Overview(Presentation) Reviewnationalandstatefindings
(Presentation)
IdentifyresourcesandcapabilitieswithinGDOT
(Discussion)
IdentifyprogramalternativesforGDOT
long/shortterm(Discussion)
Identifyinternalowners/externalstakeholders
fordevelopingandsustainingSTEM(Discussion)
2
1

4/30/2015
OVERVIEW
3
RESEARCHGOALS
ProvideoverviewofstateofpracticeDOT
involvementinSTEMoutreach
DevelopcatalogueofDOTSTEMprograms
acrossthenation
DevelopalternativesforGDOTtoencourageK
12participationintransportationrelatedfields
Identifybestalternativeswithresourcesto
supportcontinuingprogramatGDOT,including partnerships
4
2

RESEARCHAPPROACH

4/30/2015

FINDINGS

5
6
3

4/30/2015

NATIONALFINDINGS(PRELIMINARYSEARCH)

ResultsofPreliminarySearch

TargetAudience

ProgramDuration

PartnerOrganizations 57Programsfrom26DOTs
7

NATIONALFINDINGS(SURVEYRESULTS)

ResultsofSurvey

TargetAudience

ProgramDuration

43Programsfrom22DOTs

FinancialSupport
8

4

4/30/2015

PROGRAMSACROSSTHENATION

CaltransSummer TransportationInstitute
Free,4week,nonresidential programatSanJoseState University
OrganizedbyMineta TransportationInstitute
Caltransprogramcontract manager
FundingreimbursedbyFHWA

LaDOTDTRAC&RIDES
Free,twodaytraining workshopsforuppermiddle andhighschool(TRAC)& lowermiddleandhighschool (RIDES)teachers
AASHTOprovidescurriculum instructorsandtrunkof resources
FundingsupportfromFHWA

9

PROGRAMSACROSSTHENATION

MnDOTPhoenixInternship
Program
Yearlongpaidinternshipsfor highschooljuniorsandseniors inpreengineering/STEM courses
PartnershipwithProjectLead TheWayschools
512studentsemployedper year
Internsparticipateintours, seminars,etc.

KentuckyEngineering ExposureNetwork
PartnershipbetweenKY TransportationCabinet& statewideschoolsystem
Engineersvisitschoolsto discussSTEMapplicationsin theirjobs
Schoolsschedule presentationsbycontacting KEENCoordinatorsineach district

10

5

PROGRAMSACROSSTHENATION
KansasDOTFlyingClassroom CareerExplorationFair
HostedbyKDOTAviation Division
Onedayprogramforhigh schooljuniorsandseniors
Incollaborationwith NationalGeographic's EmergingExplorer BarringtonIrving

4/30/2015
11

STEMEDUCATIONINGEORGIA
Definition:
Anintegratedcurriculum(asopposedtoscience, technology,engineeringandmathematicstaughtin isolation)thatisdrivenbyproblemsolving,discovery, exploratory project/problembasedlearning,andstudent centereddevelopmentofideasandsolutions (stemgeorgia.org)
StatusofSchools:
46%(90outof195)ofGA'sschooldistrictshaveatleastone schoolworkingonSTEMcertification
Over400GAschoolsareworkingtowardSTEMcertification [October2014]
12
6

4/30/2015
STEMAWARENESSEVENTSINGA
STEMDay(annualeventinMay)
Adayforschools,students,teachersandcompaniestoraise awareness,celebrateandengageinactivitiesinvolving STEM
STEMFestivals Teacherdevelopmentinitiatives
GASTEMInstitute,STEMwithoutBorders,STEMGeorgia TeachersAcademy,STEMGATeacherLaureates
GeorgiaSTEMForum Others
Professional/agencyspecificinitiativestopromoteSTEMin GA,etc.
13
STEMFUNDINGINGA
RacetotheTopInnovationFund
$19.4millionfund,competitivegrantprogram Encouragesnewandinnovativepartnerships
amongK12schools,collegesanduniversities,non profitorganizationsandbusinesses Projectstoimprovestudenteducational achievement Over20initiatives,severalSTEMrelated,including charterprogramdevelopmentandteacher training/development CEISMCinvolvement
14
7

4/30/2015
CEISMC CENTERFOREDUCATIONINTEGRATING SCIENCE,MATHEMATICS&COMPUTING
CEISMC:PartnershipunitingtheGeorgiaInstituteof
Technologywitheducationalgroups,schools,corporations,and opinionleadersthroughoutthestateofGeorgia.
Vision:EnsurethatK12studentsinGeorgiareceivethebestpossible preparationinscience,technology,engineering,andmathematics (STEM)astheyseektheirplaceinthemodernworld.
Mission:EnhanceSTEMeducationintheschoolsbasedonthe enormousscholarly accomplishmentsofGTfaculty.CEISMCadvocates andparticipatesineffortsforsystemicchangesthatleadtoimproved appreciationandperformanceinSTEMforallstudentsatthelevelofK 12, especiallythoseunderrepresentedinSTEMeducation,andto disseminatebestpracticestodistrictsandthroughscholarlyworks.
15
TRANSPORTATIONSTEMINGA EXTERNALSTAKEHOLDERS
UTCs CEISMC UniversitiesandColleges PrivateIndustry ProfessionalOrganizations FederalHighwayAdministration GeorgiaDepartmentofEducation Others
16
8

GDOTINITIATIVES/ACTIVITIES

4/30/2015

IndividualpartnershipswithWTS,ASHEandotherorganizations
17
PROGRAMALTERNATIVES
18
9

4/30/2015

RECOMMENDATIONS

Goals: Increase pipeline of future transportation leaders and officials
Foster STEM culture within GDOT
Foreffectiveness:

ThinklongtermextendedSTEMprogramsversus shorttermSTEMawarenessevents

TargetSTEMschools

Designinitiativeswithexclusive/indepthfocuson transportation(studenteducation/teachertraining)

Designlongtermextendedinitiativesfocusedon highschools

DesignTSTEMawarenessprogramsforK12

Leverageexistingresourcesandbuildpartnerships

withTSTEMstakeholders

19

PROGRAMOPTIONS
Residentialornonresidentialsummer
programsliketheSTI
Teachertrainingandcurriculumdevelopment
programslikeAASHTO'sTRACandRIDES
Relationshipbuilderprograms
e.g.,Buildlongtermrelationshipswithstudents throughinternshipsinhighschoolandcollege
Oneday,highpublicityworkshops Occasionalemployeevisitstoschoolsto
presentonSTEMapplicationsintheirjobs
20
10

LONGTERMEVENT(DISCUSSION)
Whatshouldtheprogramlooklike? Whoshouldbeinvolved? Whatresourceswillbeneeded/available?
Internal External

4/30/2015

21
SHORTTERMEVENT(DISCUSSION)
Whatshouldtheprogramlooklike? Whoshouldbeinvolved? Whatresourceswillbeneeded/available?
Internal External

22
11

OWNING&SUSTAININGSTEMINGDOT
STEMChampion STEMSteeringCommittee HumanResources

4/30/2015

EXPANDINGSTEMPANEL: EXTERNALTSTEMSTAKEHOLDERS
AdditionalPartners
CEISMC UniversitiesandColleges PrivateIndustry ProfessionalOrganizations FHWA GADepartmentofEducation Others

23
24
12


STEM and Our Future Transportation Leaders
Appendix F: GDOT Survey Instrument

GDOT STEM Outreach Employee Survey

The Georgia Department of Transportation (GDOT) is exploring avenues to engage K-12 students in transportation through STEM programming as an effort to replenish the workforce pipeline. The purpose of this survey is to gauge interest of GDOT employees for involvement in STEM outreach activities that the department may engage in. The results will be used to inform future STEM outreach programming for GDOT.
This research is being conducted by the Infrastructure Research Group (IRG) at the Georgia Institute of Technology and is sponsored by GDOT.
Please contact Stefanie Brodie at sbrodie3@gatech.edu if you have any questions or concerns.
Thank you.
*1. Have you participated in STEM outreach through GDOT previously?
Yes No
2. Why or why not?
3. If yes, which outreach activities? (up to five)
Activity 1: Activity 2: Activity 3:

*4. On a scale of "not interested" to "very interested", how interested are you in

participating in STEM activities through GDOT?

Not Interested

Neutral

Somewhat Interested

Very Interested









GDOT STEM Outreach Employee Survey
*5. What type of STEM activity would you be interested in participating in through GDOT?
Options (choose all that apply):
Mentor a team for an on-going competition (such as Future City or First LEGO League) Serve as judge for a competition Participate in a summer program lasting 4 - 6 weeks Serve on a committee to plan an event lasting 2 - 6 hours (such as Introduce a Girl to Engineering) Participate in a event lasting 2 - 6 hours (such as Introduce a Girl to Engineering) Attend a Career Day/Give a talk at middle or high school Host a shadow student Not interested
Other (please specify)

*6. How would you like to hear about STEM outreach opportunities offered through
GDOT? Options (choose all that apply):
Via email In a newsletter On bulletin boards in the office
Other (please specify)

7. On a scale of "not likely" to "very likely", how likely are you to consider serving on a

STEM advisory/planning board at GDOT?

Not Likely

Neutral

Somewhat Likely

Very Likely









*8. Are you currently involved in STEM outreach outside GDOT?
Yes No
9. What types of outreach activities do you participate in?



GDOT STEM Outreach Employee Survey
10. How often (choose one)?
Annually Semi-annually Every 3 or 4 months Monthly More than once a month Weekly Occasionally
11. Additional Comments:


*12. Name:
13. Email (if you are interested in being contacted further):