Active Learning Narrows Achievement Gaps for Underrepresented Students in Undergraduate Science, Technology, Engineering, and Math

Overview

Journal Proc Natl Acad Sci U S A

Specialty Science

Date 2020 Mar 11

PMID 32152114

Citations 188

Authors

Elli J Theobald

Mariah J Hill

Elisa Tran

Sweta Agrawal

E Nicole Arroyo

Shawn Behling

Nyasha Chambwe

Dianne Laboy Cintron

Jacob D Cooper

Gideon Dunster

Jared A Grummer

Kelly Hennessey

Jennifer Hsiao

Nicole Iranon

Leonard Jones 2nd

Hannah Jordt

Marlowe Keller

Melissa E Lacey

Caitlin E Littlefield

Alexander Lowe

Shannon Newman

Vera Okolo

Savannah Olroyd

Brandon R Peecook

Sarah B Pickett

David L Slager

Itzue W Caviedes-Solis

Kathryn E Stanchak

Vasudha Sundaravardan

Camila Valdebenito

Claire R Williams

Kaitlin Zinsli

Scott Freeman

Affiliations

Soon will be listed here.

Abstract

We tested the hypothesis that underrepresented students in active-learning classrooms experience narrower achievement gaps than underrepresented students in traditional lecturing classrooms, averaged across all science, technology, engineering, and mathematics (STEM) fields and courses. We conducted a comprehensive search for both published and unpublished studies that compared the performance of underrepresented students to their overrepresented classmates in active-learning and traditional-lecturing treatments. This search resulted in data on student examination scores from 15 studies (9,238 total students) and data on student failure rates from 26 studies (44,606 total students). Bayesian regression analyses showed that on average, active learning reduced achievement gaps in examination scores by 33% and narrowed gaps in passing rates by 45%. The reported proportion of time that students spend on in-class activities was important, as only classes that implemented high-intensity active learning narrowed achievement gaps. Sensitivity analyses showed that the conclusions are robust to sampling bias and other issues. To explain the extensive variation in efficacy observed among studies, we propose the heads-and-hearts hypothesis, which holds that meaningful reductions in achievement gaps only occur when course designs combine deliberate practice with inclusive teaching. Our results support calls to replace traditional lecturing with evidence-based, active-learning course designs across the STEM disciplines and suggest that innovations in instructional strategies can increase equity in higher education.

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