Pathways to Career Success: A STEM Career Mentorship Program
Jeffrey Jones
The Pathways to Engineering Success Program focuses on guiding undergraduate STEM students toward thriving careers in chosen fields. This mentorship initiative pairs students with experienced professionals to provide practical insights, career guidance, and leadership development. Through hands-on learning, resume coaching, and exposure to real-world challenges, the program equips participants with the tools and confidence to excel in specialized engineering fields, while promoting diversity and inclusivity in STEM careers.

Engineering Career Awareness Program (ECAP)
Travis York, APLU

Creative Scientific Inquiry Experiences
Ellene Tratras Contis, Eastern Michigan University
The Creative Scientific Inquiry Experience (CSIE) is a STEM-related program funded by the U.S. Department of Education that connects students with faculty and with community projects through an integrated science curriculum. We specialize in creating learning experiences for students in STEM fields through innovative courses and student events. Our courses are 1-2 credit hours, and faculty work with community partners to develop coursework that allows students to work on real-world problems.

Academic Investment in Mathematics & Science (AIMS)
W. Robert (Bob) Midden, Bowling Green State University-Main Campus
This is a comprehensive scholarship and support program designed to enhance the success of under-represented minority students and women in earning undergraduate degrees in STEM fields.

Enabling Faculty to Adopt Deliberative Democracy Pedagogy: a tool to broaden and engage
Gwen Shusterman, Portland State University
This project has been focused on catalyzing pedagogical innovation in introductory science courses. In particular, structures have been put in place to facilitate the implementation of the model of Deliberative Democracy Pedagogy (DDP). DDP is an active learning strategy, based on deliberative democratic models of citizen engagement in science policymaking. This integrative pedagogical approach, revises the delivery of conventional introductory science content around modules that engage students with current science policy controversies. Teaching teams of faculty and graduate students have attended summer pedagogical workshops, developed curricular modules, implemented the modules and participated in regular Communities of Practice meetings.

LAUNCH: Undergraduate Research
Travis York, APLU
LAUNCH is an acronym that stands for Learning Communities (L), Academic Excellence (A), Undergraduate Research (U), National Fellowships (N), Capstones (C), and Honors (H). LAUNCH is a unit of Undergraduate Studies housed in Academic Affairs under the Provost at Texas A&M University. LAUNCH: UGR promotes, coordinates, creates, and assesses undergraduate programs involving creative scholarship, inquiry, and research in all academic disciplines at Texas A&M. The programs serves as an introduction for first generation, low income, and/or under-represented students in STEM research through first year research teams, summer research programs, research presentations, and research and graduate program informationals.

LAUNCH: Learning Communities
Travis York, APLU
Learning communities (LCs) are opportunities for students to actively participate in their education. Learning communities connect students with others of similar interests or backgrounds, enrich the learning process and promote greater student success. Creating a rich learning environment, learning communities emphasize relationships and community building among students, faculty and staff. LCs usually feature small group interaction, common intellectual experiences, and mentorship from peers and/or faculty. Students gain insight into the context for course material, develop a social network and support, are exposed to new experiences and develop their critical thinking skills.

Learning Environment and Academic Research Network (L.E.A.R.N.)
Travis York, APLU
A program that invites science, technology, engineering, and mathematics students to become a part of a supportive learning community. F-L.E.A.R.N. is for students entering UCF from high school. T-L.E.A.R.N. is for students entering UCF from a state/community college. L.E.A.R.N is for , students must be incoming freshman or transferring from a state college, who will start in summer or fall and major in one of the following disciplines: -Engineering and Computer Science -Science (Biology, Chemistry, Biomedical Sciences, Biotechnology, Math, Physics, Forensic Science, Psychology, and Statistics) -Optics and Photonics.

STEMcoding project
Chris Orban, Ohio State University-Main Campus
Groups like code.org have revolutionized computer science education for the elementary school and junior high levels. But for the most part the revolution has not yet reached high-school STEM courses like physics, math and chemistry. The STEMcoding project exists to re-imagine introductory STEM courses with computer science in mind. Many schools are unable to offer computer science, but they may have a physics, or chemistry or math teacher who could integrate coding into some part of their course if there was coding content that was well aligned with the learning objectives of that course.

Early College High School and STEM Academy: Strategies for Breaking the Generational Poverty Cycle in Rural America
Gary E. Briers, Texas A & M University
School-wide Early College--for ALL high school students at Roscoe Collegiate ISD (RCISD)--and STEM Academy designation have led to four private-public partnerships in STEM-related enterprises. More than 90% of RCISD's seniors complete an associate of science degree at high school graduation. Simultaneously, students earn industry-recognized certification in STEM fields as FAA-licensed UAV pilots, veterinary assistants, health care workers, welders, and/or computer technicians/network administrators. Because students earn a college parallel associate degree (versus an associate of applied science"often considered a "terminal degree"), graduates can and do continue to matriculate into STEM majors for baccalaureate degrees. These results are in a public school district with fewer than 30 graduates annually in a rural community of fewer than 2,000 residents. Two additional goals remain to be achieved: 90% of those associate degree/high school diploma recipients will earn baccalaureate degrees and 90% of those will earn a graduate or professional degree.