The persistent effect of pre-college computing experience on college CS course grades-Reference-Cited by-同舟云学术

The persistent effect of pre-college computing experience on college CS course grades

Published:2018-04-27 Issue:2 Volume:9 Page:58-64
ISSN:2153-2184
Container-title:ACM Inroads
language:en
Short-container-title:ACM Inroads

Author:

Alvarado Christine¹,Umbelino Gustavo¹,Minnes Mia¹

Affiliation:

1. University of California, San Diego

Abstract

Many college computer science majors have little or no pre-college computing experience. Previous work has shown that inexperienced students under-perform their experienced peers when placed in the same introductory courses and are more likely to drop out of the CS program. However, not much is known about what, if any, differences may persist beyond the introductory sequence for students who remain in the program. We conducted a study across all levels of a CS program at a large public university in the United States to determine whether grade differences exist between students with and without pre-college experience, and if so, for what types of experiences. We find significant grade differences in courses at all levels of the program. We further find that students who took AP Computer Science receive significantly higher average grades---by up to a half grade---in nearly all courses we studied. Pre-college experience appears to have a weaker relationship with retention and with low-stakes assessment grades. We discuss the limitations of these findings and implications for high school and college level CS courses and programs.

Funder

National Science Foundation

Publisher

Association for Computing Machinery (ACM)

Subject

Education,General Computer Science

Link

https://dl.acm.org/doi/pdf/10.1145/3210551

Reference25 articles.

1. Ahadi A. and Lister R. Geek Genes Prior Knowledge Stumbling Points and Learning Edge Momentum: Parts of the One Elephant? ICER (2013) 123--128. 10.1145/2493394.2493416 Ahadi A. and Lister R. Geek Genes Prior Knowledge Stumbling Points and Learning Edge Momentum: Parts of the One Elephant? ICER (2013) 123--128. 10.1145/2493394.2493416

2. Alvarado C. Lee C.B. and Gillespie G. New CS1 Pedagogies and Curriculum the Same Success Factors? SIGCSE (2014) 379--384. 10.1145/2538862.2538897 Alvarado C. Lee C.B. and Gillespie G. New CS1 Pedagogies and Curriculum the Same Success Factors? SIGCSE (2014) 379--384. 10.1145/2538862.2538897

3. Barker L.J. O'Neill M. and Kazim N. Framing Classroom Climate for Student Learning and Retention in Computer Science. SIGCSE (2014) 319--324. 10.1145/2538862.2538959 Barker L.J. O'Neill M. and Kazim N. Framing Classroom Climate for Student Learning and Retention in Computer Science. SIGCSE (2014) 319--324. 10.1145/2538862.2538959

4. desJardins M. and Littman M. Broadening Student Enthusiasm for Computer Science with a Great Insights Course. SIGCSE (2010) 157--161. 10.1145/1734263.1734317 desJardins M. and Littman M. Broadening Student Enthusiasm for Computer Science with a Great Insights Course. SIGCSE (2010) 157--161. 10.1145/1734263.1734317

5. Dodds Z. Libeskind-Hadas R. Alvarado C. and Kuenning G. Evaluating a Breadth-first Cs 1 for Scientists. SIGCSE (2008) 266--270. 10.1145/1352322.1352229 Dodds Z. Libeskind-Hadas R. Alvarado C. and Kuenning G. Evaluating a Breadth-first Cs 1 for Scientists. SIGCSE (2008) 266--270. 10.1145/1352322.1352229

Cited by 1 articles. 订阅此论文施引文献订阅此论文施引文献，注册后可以免费订阅5篇论文的施引文献，订阅后可以查看论文全部施引文献

1. Board 208: Breaking Through the Obstacles: Strategies and Support Helping Students Succeed in Computer Science;2024 ASEE Annual Conference & Exposition Proceedings