Development of an instructional model for higher order thinking in science among secondary school students: a fuzzy Delphi approach

德尔菲法 数学教育 高阶思维 批判性思维 心理学 价值(数学) 科学教育 反射(计算机编程) 德尔菲 领域(数学) 过程(计算) 教学方法 计算机科学 数学 人工智能 统计 认知指导教学 操作系统 程序设计语言 纯数学
作者
Gulistan Ahmed Saido,Saima Siraj,Dorothy DeWitt,Omed Saadallah Al-Amedy
出处
期刊:International Journal of Science Education [Taylor & Francis]
卷期号:40 (8): 847-866 被引量:47
标识
DOI:10.1080/09500693.2018.1452307
摘要

It is important for science students to develop higher order thinking (HOT) so that they can reason like scientists in the field. In this study, a HOT instructional model for secondary school science was developed with experts. The model would focus on reflective thinking (RT) and science process skills (SPS) among Grade 7 students. The Fuzzy Delphi Method (FDM) was employed to determine consensus among a panel of 20 experts. First, semi-structured interviews were conducted among the experts to generate the elements required for the model. Then, a questionnaire was developed using a seven-point linguistic scale based on these elements. The defuzzification value was calculated for each item, and a threshold value (d) of 0.75 was used to determine consensus for the items in the questionnaire. The alpha-cut value of >0.5 was used to select the phases and sub-phases in the model. The elements in the model were ranked to identify the sub-phases which had to be emphasised for implementation in instruction. Consensus was achieved on the phases of the HOT instructional model: engagement, investigation, explanation, conclusion and reflection. An additional 24 learning activities to encourage RT skills and SPS among students were also identified to develop HOT skills in science.

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