Practitioner Perspectives on COVID-19’s Impact on Computer Science Education Among High Schools Serving Students from Lower and Higher Income Families

IF 3.2 3区 工程技术 Q1 EDUCATION, SCIENTIFIC DISCIPLINES
Monica McGill, Eric Snow, Luronne Vaval, Leigh Ann DeLyser, Stephanie Wortel-London, Angelica Thompson
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引用次数: 0

Abstract

Research Problem. Computer science (CS) education researchers conducting studies that target high school students have likely seen their studies impacted by COVID-19. Interpreting research findings impacted by COVID-19 presents unique challenges that will require a deeper understanding as to how the pandemic has affected underserved and underrepresented students studying or unable to study computing.

Research Question. Our research question for this study was: In what ways has the high school computer science educational ecosystem for students been impacted by COVID-19, particularly when comparing schools based on relative socioeconomic status of a majority of students?

Methodology. We used an exploratory sequential mixed methods study to understand the types of impacts high school CS educators have seen in their practice over the past year using the CAPE theoretical dissaggregation framework to measure schools’ Capacity to offer CS, student Access to CS education, student Participation in CS, and Experiences of students taking CS.

Data Collection Procedure. We developed an instrument to collect qualitative data from open-ended questions, then collected data from CS high school educators (n = 21) and coded them across CAPE. We used the codes to create a quantitative instrument. We collected data from a wider set of CS high school educators (n = 185), analyzed the data, and considered how these findings shape research conducted over the last year.

Findings. Overall, practitioner perspectives revealed that capacity for CS Funding, Policy & Curriculum in both types of schools grew during the pandemic, while the capacity to offer physical and human resources decreased. While access to extracurricular activities decreased, there was still a significant increase in the number of CS courses offered. Fewer girls took CS courses and attendance decreased. Student learning and engagement in CS courses were significantly impacted, while other noncognitive factors like interest in CS and relevance of technology saw increases.

Practitioner perspectives also indicated that schools serving students from lower-income families had (1) a greater decrease in the number of students who received information about CS/CTE pathways; (2) a greater decrease in the number of girls enrolled in CS classes; (3) a greater decrease in the number of students receiving college credit for dual-credit CS courses; (4) a greater decrease in student attendance; and (5) a greater decrease in the number of students interested in taking additional CS courses. On the flip-side, schools serving students from higher income families had significantly higher increases in the number of students interested in taking additional CS courses.

从从业者的角度看COVID-19对服务于低收入和高收入学生的高中计算机科学教育的影响
研究的问题。针对高中生进行研究的计算机科学(CS)教育研究人员可能已经发现他们的学习受到了新冠肺炎的影响。解释受COVID-19影响的研究结果带来了独特的挑战,这需要更深入地了解大流行如何影响服务不足和代表性不足的正在学习或无法学习计算机的学生。研究的问题。本研究的研究问题是:高中计算机科学教育生态系统在哪些方面受到了COVID-19的影响,特别是在根据大多数学生的相对社会经济地位对学校进行比较时?我们使用探索性顺序混合方法研究来了解高中CS教育者在过去一年的实践中所看到的影响类型,使用CAPE理论分解框架来衡量学校提供CS的能力、学生获得CS教育的机会、学生参与CS以及学生参加CS的经历。数据收集过程。我们开发了一种工具,从开放式问题中收集定性数据,然后从CS高中教育者(n = 21)那里收集数据,并在CAPE中对其进行编码。我们用密码创造了一个定量工具。我们从更广泛的CS高中教育者(n = 185)那里收集数据,分析数据,并考虑这些发现如何影响过去一年进行的研究。总体而言,从业人员的观点表明,CS的资金,政策和;大流行期间,这两类学校的课程都有所增加,而提供物质和人力资源的能力却有所下降。虽然课外活动的机会减少了,但提供的计算机科学课程数量仍有显著增加。参加计算机科学课程的女生减少,出勤率下降。学生对计算机科学课程的学习和参与受到了显著影响,而其他非认知因素,如对计算机科学的兴趣和技术的相关性,则有所增加。从业人员的观点还表明,服务于低收入家庭学生的学校(1)接受CS/CTE途径信息的学生人数减少较多;(2)参加计算机科学课程的女生人数大幅减少;(3)双学分计算机科学课程获得大学学分的学生人数大幅减少;(4)学生出勤率大幅下降;(5)有兴趣选修额外计算机科学课程的学生人数大幅减少。另一方面,为高收入家庭学生提供服务的学校,对额外的计算机科学课程感兴趣的学生人数明显增加。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACM Transactions on Computing Education
ACM Transactions on Computing Education EDUCATION, SCIENTIFIC DISCIPLINES-
CiteScore
6.50
自引率
16.70%
发文量
66
期刊介绍: ACM Transactions on Computing Education (TOCE) (formerly named JERIC, Journal on Educational Resources in Computing) covers diverse aspects of computing education: traditional computer science, computer engineering, information technology, and informatics; emerging aspects of computing; and applications of computing to other disciplines. The common characteristics shared by these papers are a scholarly approach to teaching and learning, a broad appeal to educational practitioners, and a clear connection to student learning.
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