Understanding student burnout in quantitative reasoning courses

被引：1

作者：

Kelly, Stephanie ^{[1
]}

Minuci, Eduardo G. ^{[2
]}

Ducking, Johnny ^{[3
]}

Romero, Alfredo ^{[4
]}

机构：

[1] North Carolina A&T State Univ, Dept Business Informat Syst & Analy, 1601 E Market St, Greensboro, NC 27411 USA

[2] North Carolina A&T State Univ, Dept Econ, Greensboro, NC USA

[3] Ole Miss, Dept Econ, University, MS USA

[4] North Carolina A&T State Univ, Dept Chair, Greensboro, NC USA

来源：

COMMUNICATION QUARTERLY | 2025年 / 73卷 / 01期

关键词：

Burnout; quantitative reasoning; credibility; caring; active empathetic listening; listening; computer-mediated immediate behaviors; INSTRUCTOR CREDIBILITY; IMMEDIACY; COMMUNICATION; ACHIEVEMENT; MEDIATOR; PERSIST; DISSENT; INTENT;

D O I：

10.1080/01463373.2024.2438835

中图分类号：

G2 [信息与知识传播];

学科分类号：

05 ; 0503 ;

摘要：

The purpose of this study was to better understand how instructor communicative behaviors affect student burnout in quantitative reasoning courses. The study tests a model in which instructor computer-mediated immediate behaviors and active empathetic listening behaviors act as indirect influences of burnout through the mediation of instructor credibility. The results support a model in which instructor computer-mediated immediate behaviors and the active empathetic listening skill of responding do indeed indirectly influence student burnout in quantitative reasoning courses. The instructor credibility dimension of caring mediated the model.

引用

页码：115 / 132

页数：18

共 50 条

[21] An empirical investigation of student's motivation towards learning quantitative courses
Singh, Sonali
Misra, Richa
Srivastava, Shalini
INTERNATIONAL JOURNAL OF MANAGEMENT EDUCATION, 2017, 15 (02): : 47 - 59
[22] Student understanding of tunneling in quantum mechanics: Examining interview and survey results for clues to student reasoning
Morgan, JT
Wittmann, MC
Thompson, JR
2003 PHYSICS EDUCATION RESEARCH CONFERENCE, 2004, 720 : 97 - 100
[23] Numerical Sensitivity Enhancing and Reasoning Completeness Alignment for Quantitative Understanding
Liang, Xinyue
Li, Jiawei
Yang, Yizhe
Gao, Yang
PROCEEDINGS OF THE 18TH INTERNATIONAL WORKSHOP ON SEMANTIC EVALUATION, SEMEVAL-2024, 2024, : 1830 - 1841
[24] A Rubric for Assessing Student Drawings & Reasoning to Gauge Understanding of Osmosis & Diffusion
Angra, Aakanksha
Gutzler, Stephanie
Nguyen, Jason
Patel, Neel
AMERICAN BIOLOGY TEACHER, 2021, 83 (08): : 545 - 551
[25] Investigating student ability to follow reasoning chains: The role of conceptual understanding
Lindsey, Beth A.
Stetzer, MacKenzie R.
Speirs, J. Caleb
Ferm Jr, William N.
van Hulten, Alexander
PHYSICAL REVIEW PHYSICS EDUCATION RESEARCH, 2023, 19 (01):
[26] Inquiry-based ecology laboratory courses improve student confidence and scientific reasoning skills
Beck, Christopher W.
Blumer, Lawrence S.
ECOSPHERE, 2012, 3 (12):
[27] Using Simulations in Linked Courses to Foster Student Understanding of Complex Political Institutions
Williams, Michelle Hale
JOURNAL OF POLITICAL SCIENCE EDUCATION, 2015, 11 (03) : 332 - 346
[28] Near real-time assessment of student learning and understanding in biology courses
Brewer, CA
BIOSCIENCE, 2004, 54 (11) : 1034 - 1039
[29] Understanding the Use of Student-Centered Teaching Methods in Undergraduate Chemistry Courses
Ryan J. Yoder
Donna Bobbitt-Zeher
Vanessa Sawicki
Research in Science Education, 2021, 51 : 845 - 863
[30] From Foundational Concepts to Critical Reflection: Building Student Understanding in Introductory Courses
Soluri, Elizabeth
AMERICAN JOURNAL OF PHYSICAL ANTHROPOLOGY, 2017, 162 : 364 - 364

← 1 2 3 4 5 →