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Creating a Community of Scholars: Outcomes and Interventions of a Four-Year Community College STEM Scholarship Program

  • James BramanEmail author
  • Barbara Yancy
  • Sylvia Sorkin
Conference paper
Part of the Communications in Computer and Information Science book series (CCIS, volume 1034)

Abstract

This project describes degree and other outcomes after four years of a specific S-STEM scholarship program at the Community College of Baltimore County (CCBC), located in Maryland USA [1]. This scholarship program was aimed at increasing degree attainment at the community college level in Science, Technology, Engineering, and Mathematics (STEM) related fields. From Fall 2014 through Spring 2018, 101 fulltime CCBC students majoring in specific STEM fields received S-STEM scholarships for one or more semesters through NSF funding. This paper highlights previous research [1] and presents demographics of the CCBC awardees, including transfer and graduation rates. In addition, emphasis will be placed on community building and interaction, student interventions and results of spatial visualization skills testing (PSVT:R) and practice. As all students remained in the program due to its successful implementation, student success strategies will be discussed.

Keywords

Scholarships STEM Faculty mentoring Transfer Spatial skills 

Notes

Acknowledgment

This material is based upon work supported in part by the National Science Foundation under award DUE-1356436. Opinions expressed are those of the authors and do not necessarily reflect the views of the NSF.

References

  1. 1.
    Sorkin, S., Braman, J., Yancy, B.: Interim awardee outcomes after four years of a STEM scholarship program. Inf. Syst. Educ. J. 17(1), 49–63 (2019). http://isedj.org/2019-17/, ISSN: 1545-679X
  2. 2.
    MHEC Maryland Higher Education Commission.: Trends in enrollment by race and gender: Maryland Higher Education Institutions (2007–2016) (2017). http://mhec.maryland.gov/publications/Documents/Research/AnnualReports/2016EnrollRaceandGender.pdf
  3. 3.
    Sorby, S.: Educational research in developing 3-D spatial skills for engineering students. Int. J. Sci. Educ. 31(3), 459–480 (2009)CrossRefGoogle Scholar
  4. 4.
    Metz, S., Jarosewich, T., Sorby, S.A.: Adapting tested spatial skills curriculum to on-Line format for community college instruction: A critical link to retain technology students (SKIITS) (2016). https://www.asee.org/public/conferences/78/papers/18066/download
  5. 5.
    Gagnier, K., Fisher, K.: Spatial thinking: A missing building block in STEM education (2016). http://edpolicy.education.jhu.edu/wpcontent/uploads/2016/07/SpatialthinkingmastheadFINAL.pdf
  6. 6.
    Sorby, S.A., Metz, S., Jarosewich, T.: Online spatial skills instruction for community college students in technical education. In: 71st Midyear Meeting Proceedings of ASEE Engineering Design Graphics Division (2016). https://sites.asee.org/edgd/wp-content/uploads/sites/22/2017/12/Part12-Sorby-Metz-Jarosewich.pdf
  7. 7.
    Shapiro, D., Dundar, A., Wakhungu, P.K., Yuan, X., Nathan, A., Hwang, Y.: Time to degree: A national view of the time enrolled and elapsed for associate and bachelor’s degree earners (Signature Report No. 11). National Student Clearinghouse Research Center, Herndon, VA (2016). https://nscresearchcenter.org/signaturereport11/

Copyright information

© Springer Nature Switzerland AG 2019

Authors and Affiliations

  1. 1.School of Technology, Art and Design, Computer Science/Information TechnologyCommunity College of Baltimore CountyRosedaleUSA
  2. 2.School of Mathematics and Science, MathematicsCommunity College of Baltimore CountyRosedaleUSA

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