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1. Improving Engineering Students’ Outcomes via Multiple Forms of Mentorship

   Rodríguez, Y; Varelas, A; Angulo, N; Nieto-Wire, C; DePass, A L (November 2023, The Chronicle of Mentoring & Coaching, Mentoring Institute)

   A group of interdisciplinary faculty at Hostos Community College, an institution that serves a largely first-generation student population that is over 90% minority, 69% women, who often live below the poverty line and lack academic role models, has created the NSF-funded Hostos Engineering Academic Talent (HEAT) Scholarship Program designed to increase the number of low-income academically talented students who persevere and graduate with associate and baccalaureate degrees in engineering. HEAT provides its scholars with financial support, a combined mentoring model where scholars work with STEM faculty and more advanced engineering students throughout the year, and the opportunity to participate in mentored research experiences. Student successes include improved GPAs, rates of retention, graduation from 2- and 4-year institutions, and acceptance to STEM graduate programs or entering the workforce as compared to students not participating in HEAT. Surveys of Scholars indicate that combined mentorship is the most important component of HEAT. Thus, HEAT is a model of intervention that serves to expand the STEM pipeline to create a more inclusive and diverse engineering workforce. 

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2. Enhancing Adult Learners' Sense of Engineering Connectedness, Comfort, and Security in a Targeted Learning Community

   Bullington, K. E.; Tomovic, C. L.; Jovanovic, V.; Dean, A. W.; Landaeta, R.; White-Levatich, A. (December 2021, Journal of STEM education)

   Adult learners have different needs than traditional college-aged students. We present the first year results of a targeted learning community for high-achieving, low-income engineering and engineering technology adult students. Students in this project received academic support and mentorship to prepare them for entering the engineering workforce. By including the adult learners in the development of their learning outcomes, students increased their sense of engineering connectedness, comfort, and security to enable them to confidently enter the engineering and engineering technology workforce. 

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3. Building Interest in Technology Careers for High School Students

   https://doi.org/10.18260/1-2--46785  

   Wosczyna-Birch, K; Robicheau, W (June 2024, ASEE PEER)

   The goal of this program, funded by the National Science Foundation Advanced Technological Education (NSF ATE) program, is to provide additional professional and technical skills to cohorts of high school students through a Saturday Program. The program has provided inner-city high school students with out-of-school, hands-on educational experiences focusing on both professional and technical skills. Participant demographics will be discussed in this paper as diversity is a key objective of the program. The program utilizes industry-driven, project-based learning (PBL) and lessons in career and college readiness to prepare students for the workforce. Each student session consists of five consecutive Saturdays and is taught by a team of high school teachers, community college faculty, and instructors with expertise in professional skills, teambuilding, leadership, technical writing, coding, and STEM disciplines. The program is held on community college campuses as a way to show students that they are welcome in a college environment, which has inspired participants to have confidence in their own abilities to attend college and pursue educational and career goals in technology fields. Principals from participating high schools have commented that students who attended the Program have demonstrated an improvement in their academics and behavior due to the knowledge of professional and technical skills that they have gleaned from the program. The program’s leadership team disseminates best practices through presentations, social media, publications, and workshops at national conferences. The virtual four-day Summer Teachers’ Workshop allows high school and community college educators from throughout the United States to experience the same program that is used for the high school students. Although the workshop is virtual, participants are provided with materials and supplies, so they have the same hands-on experiences as the students in the Saturday program. 

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4. Virtual International Collaboration for Community College STEM Programs

   Wosczyna-Birch, K. (January 2021, ASEE Peer)

   International collaborations for community colleges are important for students who will be competing for employment yet are often overlooked due to the perception that international means expensive. The International Education Initiative (IEI) provides opportunities for international collaboration among community college faculty and students. The IEI is a multi-tiered program that allows different levels of participation and cost for faculty and students through funding from the National Science Foundation Advanced Technological Education Program and the French Embassy in the United States. While the main focus is engineering and technology courses, partners have also included business and communications classes, creating a truly interdisciplinary program. Students participating in these programs can expect to have greater cross-cultural maturity and awareness of the wider world, increased confidence in finding future success in the global workforce, and increased ability to deploy 21st Century skills such as technology and teamwork. Faculty participating in the program can expect to have increased confidence and skills in faculty to support students in achieving 21st century skills; increased ability to co-teach and work effectively with and overseas partner, and more motivation and readiness to sustain overseas partnerships and help grow the international program. The Connecticut Collaborative Learning for International Capabilities and Knowledge (CT CLICKs) provides the opportunity for students to receive a global experience as part of a course they are already taking. During the first year of the program, Faculty from Connecticut community colleges partnered with faculty from French Insitituts universitaires de technologie (IUTs), French equivalent of community colleges, to co-teach curriculum modules to their participating classes. The second year added the option of co-facilitating a project between the two classes. All teaching, assignments, and projects were completed through virtual platforms. Several travel opportunities have been provided for student and faculty participants. These have either been through the attendance of international technology bootcamps that were organized by the French Embassy or a partner IUT or through a travel program organized by the IEI. Both travel options include experiences that provide an overview of French engineering and technology education, industry, history, and culture. A faculty recruitment and preparation model has been created to continuously onboard new faculty for the IEI program. The model includes a program overview workshop, partner matching, and curriculum design workshop that all take place virtually. The CT CLICKs program has built steadily and quickly. The number of teachers participating grew from 6 to 29 in the first three years with more than 6 teachers repeating or developing new modules. A total of 334 students have participated in the CT CLICKs program since fall 2017. The number of Connecticut campuses grew from 1 to 8 and overseas partner campuses grew from 2 to 5. Participant survey data shows that the program is continuously improving in helping students gain a better worldview and how to collaborate cross-culturally and helping faculty incorporate international collaboration into their courses. 

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5. Virtual International Collaboration for Community College STEM Programs

   Wosczyna-Birch, K. (January 2021, ASEE Peer)

   International collaborations for community colleges are important for students who will be competing for employment yet are often overlooked due to the perception that international means expensive. The International Education Initiative (IEI) provides opportunities for international collaboration among community college faculty and students. The IEI is a multi-tiered program that allows different levels of participation and cost for faculty and students through funding from the National Science Foundation Advanced Technological Education Program and the French Embassy in the United States. While the main focus is engineering and technology courses, partners have also included business and communications classes, creating a truly interdisciplinary program. Students participating in these programs can expect to have greater cross-cultural maturity and awareness of the wider world, increased confidence in finding future success in the global workforce, and increased ability to deploy 21st Century skills such as technology and teamwork. Faculty participating in the program can expect to have increased confidence and skills in faculty to support students in achieving 21st century skills; increased ability to co-teach and work effectively with and overseas partner, and more motivation and readiness to sustain overseas partnerships and help grow the international program. The Connecticut Collaborative Learning for International Capabilities and Knowledge (CT CLICKs) provides the opportunity for students to receive a global experience as part of a course they are already taking. During the first year of the program, Faculty from Connecticut community colleges partnered with faculty from French Insitituts universitaires de technologie (IUTs), French equivalent of community colleges, to co-teach curriculum modules to their participating classes. The second year added the option of co-facilitating a project between the two classes. All teaching, assignments, and projects were completed through virtual platforms. Several travel opportunities have been provided for student and faculty participants. These have either been through the attendance of international technology bootcamps that were organized by the French Embassy or a partner IUT or through a travel program organized by the IEI. Both travel options include experiences that provide an overview of French engineering and technology education, industry, history, and culture. A faculty recruitment and preparation model has been created to continuously onboard new faculty for the IEI program. The model includes a program overview workshop, partner matching, and curriculum design workshop that all take place virtually. The CT CLICKs program has built steadily and quickly. The number of teachers participating grew from 6 to 29 in the first three years with more than 6 teachers repeating or developing new modules. A total of 334 students have participated in the CT CLICKs program since fall 2017. The number of Connecticut campuses grew from 1 to 8 and overseas partner campuses grew from 2 to 5. Participant survey data shows that the program is continuously improving in helping students gain a better worldview and how to collaborate cross-culturally and helping faculty incorporate international collaboration into their courses. 

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