Pre-service elementary teachers’ science and engineering teaching self-efficacy and outcome expectancy: exploring the impacts of efficacy source experiences through varying course modalities

IF 5.6 1区 教育学 Q1 EDUCATION & EDUCATIONAL RESEARCH
Rebekah Hammack, Ibrahim Yeter, Christina Pavlovich, Tugba Boz
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Abstract

Teacher efficacy is one of the most influential components for effective instruction, highlighting the importance of providing preservice teachers (PSTs) with opportunities to learn how to teach engineering during their college preparatory coursework. Making space for engineering instruction within science methods coursework could provide opportunities for PSTs to enhance their engineering teaching efficacy but also requires course instructors to give up some time previously devoted to science-focused instruction. The purpose of the current study was to explore how infusing engineering learning opportunities into a science methods course impacts PSTs’ engineering and science teaching efficacy and outcome expectancy. Pre/post-surveys were completed by PSTs enrolled in a Kindergarten-8th grade science methods course offered in four modalities (i.e., face-to-face, hybrid, online, rapid shift online). The course offered multiple engineering-focused learning activities and vicarious experiences. PSTs’ science teaching efficacy beliefs, engineering teaching efficacy beliefs, science teaching outcome expectancy, and engineering teaching outcome expectancy all significantly increased from pre- to post-test. There was no significant difference between efficacy gains based on course modality. The purposeful inclusion of multiple engineering activities and vicarious experiences allows for significant gains in science and engineering teaching efficacy and outcome expectancy regardless of the modality in which the course is taken. This study shows that having varied efficacy source experiences while learning engineering design can result in increased efficacy, even in the absence of field experience and face-to-face coursework, and that the inclusion of these engineering experiences with science methods coursework does not detract from enhancing science teaching efficacy beliefs and outcome expectancy. Further research is needed to more closely examine individual components of science methods courses and the impacts each component has when implemented using different course modalities.
职前小学教师的理工科教学自我效能感和成果预期:通过不同的课程模式探索效能感来源经验的影响
教师的效能感是有效教学中最具影响力的因素之一,这就凸显了为职前教师(PSTs)提 供机会,让他们在大学预科期间学习如何教授工程学的重要性。在科学方法课程中为工程学教学留出空间,可以为职前教师提供提高工程学教学效能的 机会,但也要求课程教师放弃一些以前用于科学教学的时间。本研究旨在探讨在科学方法课程中注入工程学学习机会如何影响专业技术人员的工程学和科学教学效能以及成果预期。参加幼儿园至八年级科学方法课程的专业技术人员以四种方式(即面对面、混合式、在线、快速转移在线)完成了前后调查。该课程提供了多种以工程学为重点的学习活动和替代体验。从测试前到测试后,PSTs 的科学教学效能感、工程学教学效能感、科学教学成果预期和工程学教学成果预期都有显著提高。不同课程模式下的效能感提升没有明显差异。有目的性地纳入多种工程活动和替代体验,使科学和工程学教学效能感和成果预期有了明显的提高,而与课程的学习方式无关。这项研究表明,在学习工程设计的过程中,即使没有实地体验和面对面的课程学习,拥有不同的效能源体验也能提高效能,而且在科学方法课程学习中加入这些工程体验并不会影响科学教学效能信念和结果预期的提高。还需要进一步开展研究,以便更仔细地研究科学方法课程的各个组成部分,以及每个组成部分在使用不同课程模式实施时产生的影响。
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来源期刊
International Journal of Stem Education
International Journal of Stem Education Social Sciences-Education
CiteScore
12.40
自引率
11.90%
发文量
68
审稿时长
13 weeks
期刊介绍: The International Journal of STEM Education is a multidisciplinary journal in subject-content education that focuses on the study of teaching and learning in science, technology, engineering, and mathematics (STEM). It is being established as a brand new, forward looking journal in the field of education. As a peer-reviewed journal, it is positioned to promote research and educational development in the rapidly evolving field of STEM education around the world.
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