Credibility Judgments in Higher Education: A Mixed-Methods Approach to Detecting Misinformation from University Instructors

IF 2.5 Q1 EDUCATION & EDUCATIONAL RESEARCH Education Sciences Pub Date : 2024-08-07 DOI:10.3390/educsci14080852
Katie Corbitt, Karen Hiltbrand, Madison Coursen, Soren Rodning, W. Brandon Smith, Don Mulvaney
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引用次数: 0

Abstract

Given the convenience with which information can now be acquired, it is crucial to analyze cases of potential misinformation and disinformation in postsecondary education. Instructor credibility judgments were measured using descriptive survey research, and the main objective was to investigate trends related to misinformation, credibility, trust, bias, and others in graduate students and on a graduate program basis. Participants were surveyed from a land grant institution in the southeast United States where 186 graduate students completed an electronic survey on the detection of misinformation and similar experiences. Graduate students were divided based on graduate program into STEM (sciences, technology, engineering, and mathematics) and non-STEM groups. Quantitative methodologies included validated questionnaires developed by researchers containing Likert-type scale questions. Chi-square tests of independence and frequencies served as primary analyses. Participants in both STEM and non-STEM groups detected the following: misinformation, bias, challenges, intimidation, risk of measurable consequences, pressure to conform, and skepticism from post-secondary instructors. There were significant differences between the type of student for trust in claims (p < 0.05), while the perception of potential consequences tended to be different between the types of graduate students (0.05 < p < 0.10). Participants in both STEM and non-STEM groups reported perception bias in science material presentation, with STEM students reporting less bias. Qualitative methodologies included optional open response boxes to provide supporting details or narratives. Reliable and validated thematic coding following served as the primary analysis. Students disciplined in STEM and non-STEM faced misinformation, bias, challenges, intimidation, risk of measurable consequences, pressure to conform, and skepticism from post-secondary instructors. Graduate students reported consistent instances of misinformation and bias about science and agriculture topics in both science and non-science-focused classrooms.
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高等教育中的可信度判断:检测大学教师错误信息的混合方法
鉴于现在信息获取的便利性,对中学后教育中可能出现的误导和虚假信息进行分析至关重要。指导教师的可信度判断是通过描述性调查研究来衡量的,其主要目的是调查研究生和研究生项目中与错误信息、可信度、信任、偏见等相关的趋势。调查对象来自美国东南部的一所土地赠与机构,该机构有 186 名研究生完成了一项关于发现错误信息和类似经历的电子调查。研究生根据研究生课程分为 STEM(科学、技术、工程和数学)组和非 STEM 组。定量方法包括由研究人员开发的包含李克特量表问题的有效问卷。独立性和频率的卡方检验是主要的分析方法。STEM 组和非 STEM 组的参与者都发现了以下问题:错误信息、偏见、挑战、恐吓、可衡量后果的风险、顺从的压力以及来自中学后教师的怀疑。不同类型的学生在对说法的信任度上存在明显差异(p < 0.05),而不同类型的研究生在对潜在后果的感知上则趋于不同(0.05 < p < 0.10)。科学、技术、工程和数学组和非科学、技术、工程和数学组的参与者都报告了对科学材料介绍的认知偏差,而科学、技术、工程和数学组的学生报告的偏差较少。定性方法包括可选的开放式回答框,以提供支持性细节或叙述。可靠、有效的主题编码作为主要分析方法。STEM 和非 STEM 学科的学生面临着错误信息、偏见、挑战、恐吓、可衡量后果的风险、顺从的压力以及来自中学后教师的怀疑。研究生们报告了在理科和非理科课堂上有关科学和农业主题的错误信息和偏见。
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来源期刊
Education Sciences
Education Sciences Social Sciences-Education
CiteScore
4.80
自引率
16.70%
发文量
770
审稿时长
11 weeks
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