Theodore Oduro-Okyireh, Budi Mulyanti, Dedi Rohendi, George Oduro-Okyireh, A. Mensah, Kennedy Acheampong
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Mediation analysis was done using AMOS 26. \nFinding: The study revealed that the positive effect of students’ strengths in the five selected mathematics topics on their performance in electrical and electronic engineering education is mediated by their higher-order thinking skills. \nConclusion: The research concludes that there is a partial mediation in the relationship between students’ strength in mathematics and achievement in electrical and electronic engineering education by higher-order thinking skills. \nResearch Limitations: It is recommended that further researchers carry out similar research with more mathematics indicators to explain more variations in achievement in electrical and electronic engineering education. \nPractical Implication: Engineering mathematics curriculum developers should stress the need for mathematics, especially algebra, for the development of higher-order thinking skills to facilitate problem-solving in electrical and electronic engineering education and practice. \nContribution to Literature: This study highlights the relationship between the understanding of the concepts of specific mathematics topics, higher-order thinking skills, and achievement in electrical and electronic engineering education.","PeriodicalId":38402,"journal":{"name":"Nurture","volume":"44 21","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2023-12-20","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"The mediating role of higher-order thinking skill in the relationship between mathematics strength and achievement in electrical and electronic engineering education\",\"authors\":\"Theodore Oduro-Okyireh, Budi Mulyanti, Dedi Rohendi, George Oduro-Okyireh, A. Mensah, Kennedy Acheampong\",\"doi\":\"10.55951/nurture.v18i1.544\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Purpose: The paper aims to examine the casual role of higher-order thinking skills as a mediator in the relationship between students’ strength in mathematics and achievement in electrical and electronic engineering education. \\nDesign/Methodology/Approach: The study adopted a quantitative research design where random cluster sampling was used to select a total of 488 final-year students from four technical universities in Ghana. Mathematics achievement tests were used to gather data on students’ higher-order thinking skills and competence in five areas of mathematics. Also, their examination results were collected from their respective universities. 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The mediating role of higher-order thinking skill in the relationship between mathematics strength and achievement in electrical and electronic engineering education
Purpose: The paper aims to examine the casual role of higher-order thinking skills as a mediator in the relationship between students’ strength in mathematics and achievement in electrical and electronic engineering education.
Design/Methodology/Approach: The study adopted a quantitative research design where random cluster sampling was used to select a total of 488 final-year students from four technical universities in Ghana. Mathematics achievement tests were used to gather data on students’ higher-order thinking skills and competence in five areas of mathematics. Also, their examination results were collected from their respective universities. Mediation analysis was done using AMOS 26.
Finding: The study revealed that the positive effect of students’ strengths in the five selected mathematics topics on their performance in electrical and electronic engineering education is mediated by their higher-order thinking skills.
Conclusion: The research concludes that there is a partial mediation in the relationship between students’ strength in mathematics and achievement in electrical and electronic engineering education by higher-order thinking skills.
Research Limitations: It is recommended that further researchers carry out similar research with more mathematics indicators to explain more variations in achievement in electrical and electronic engineering education.
Practical Implication: Engineering mathematics curriculum developers should stress the need for mathematics, especially algebra, for the development of higher-order thinking skills to facilitate problem-solving in electrical and electronic engineering education and practice.
Contribution to Literature: This study highlights the relationship between the understanding of the concepts of specific mathematics topics, higher-order thinking skills, and achievement in electrical and electronic engineering education.
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