High School and Preservice Chemistry Teacher Education Students’ Understanding of Voltaic and Electrolytic Cell Concepts: Evidence of Consistent Learning Difficulties Across Years

High school students learn the basic voltaic and electrolytic cell concepts during their last year prior to entering an undergraduate teacher-education science degree. During the 4 years of university, students complete a sequence of topics designed to build on conceptual understanding presented in...

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Published in	International journal of science and mathematics education Vol. 20; no. 8; pp. 1859 - 1882
Main Authors	Rahayu, Sri, Treagust, David F., Chandrasegaran, A. L.
Format	Journal Article
Language	English
Published	Singapore Springer Nature Singapore 01.12.2022 Springer Springer Nature B.V
Subjects	Chemistry College Science Colleges & universities Education Educational Trends Electrochemical cells Electrochemistry Electrolytic cells Grade 12 High School Students Knowledge Level Learning Problems Mathematics Education Multiple choice Preservice Teachers Reliability Science Curriculum Science Education Science Instruction Science Teachers Scientific Concepts Secondary School Science Secondary school students Secondary schools Students Teacher education Teachers Electrochemistry Electrolytic cells Electrode reactions Voltaic cells
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Abstract	High school students learn the basic voltaic and electrolytic cell concepts during their last year prior to entering an undergraduate teacher-education science degree. During the 4 years of university, students complete a sequence of topics designed to build on conceptual understanding presented in previous years. At the end of their degrees, graduating students are expected to have developed a comprehensive understanding of the subject that they are required to teach. In this research, we designed and developed a 12-item diagnostic instrument which addressed 10 propositional content knowledge statements based on the grade 12 chemistry curriculum that will be taught. In this cross-section study, 50 grade 12 high school students and 216 preservice chemistry teacher education undergraduates in years 1–4 responded to the Electrochemistry Conceptual Test (ECT) consisting of 12 two-tier multiple-choice items. The instrument was content validated by authors and peers prior to administration and when implemented had a Cronbach alpha reliability coefficient of 0.64. Overall, the students across years possessed basic knowledge about electrochemical cells but frequently were unable to explain their knowledge. While the grand mean trend in understanding electrochemistry concepts from high school through university study did show some improvement, the mean scores remained relatively low, and the year group means per item showed no such trend exacerbated by items having varying levels of difficulty. Based on this research, the lack in understanding about electrochemical concepts suggests that instruction in high school and ongoing university chemistry education faces ongoing challenges.
AbstractList	Abstract High school students learn the basic voltaic and electrolytic cell concepts during their last year prior to entering an undergraduate teacher-education science degree. During the 4 years of university, students complete a sequence of topics designed to build on conceptual understanding presented in previous years. At the end of their degrees, graduating students are expected to have developed a comprehensive understanding of the subject that they are required to teach. In this research, we designed and developed a 12-item diagnostic instrument which addressed 10 propositional content knowledge statements based on the grade 12 chemistry curriculum that will be taught. In this cross-section study, 50 grade 12 high school students and 216 preservice chemistry teacher education undergraduates in years 1–4 responded to the Electrochemistry Conceptual Test (ECT) consisting of 12 two-tier multiple-choice items. The instrument was content validated by authors and peers prior to administration and when implemented had a Cronbach alpha reliability coefficient of 0.64. Overall, the students across years possessed basic knowledge about electrochemical cells but frequently were unable to explain their knowledge. While the grand mean trend in understanding electrochemistry concepts from high school through university study did show some improvement, the mean scores remained relatively low, and the year group means per item showed no such trend exacerbated by items having varying levels of difficulty. Based on this research, the lack in understanding about electrochemical concepts suggests that instruction in high school and ongoing university chemistry education faces ongoing challenges. High school students learn the basic voltaic and electrolytic cell concepts during their last year prior to entering an undergraduate teacher-education science degree. During the 4 years of university, students complete a sequence of topics designed to build on conceptual understanding presented in previous years. At the end of their degrees, graduating students are expected to have developed a comprehensive understanding of the subject that they are required to teach. In this research, we designed and developed a 12-item diagnostic instrument which addressed 10 propositional content knowledge statements based on the grade 12 chemistry curriculum that will be taught. In this cross-section study, 50 grade 12 high school students and 216 preservice chemistry teacher education undergraduates in years 1–4 responded to the Electrochemistry Conceptual Test (ECT) consisting of 12 two-tier multiple-choice items. The instrument was content validated by authors and peers prior to administration and when implemented had a Cronbach alpha reliability coefficient of 0.64. Overall, the students across years possessed basic knowledge about electrochemical cells but frequently were unable to explain their knowledge. While the grand mean trend in understanding electrochemistry concepts from high school through university study did show some improvement, the mean scores remained relatively low, and the year group means per item showed no such trend exacerbated by items having varying levels of difficulty. Based on this research, the lack in understanding about electrochemical concepts suggests that instruction in high school and ongoing university chemistry education faces ongoing challenges.
Audience	Higher Education Postsecondary Education High Schools Grade 12 Secondary Education
Author	Chandrasegaran, A. L. Rahayu, Sri Treagust, David F.
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Snippet	High school students learn the basic voltaic and electrolytic cell concepts during their last year prior to entering an undergraduate teacher-education science... Abstract High school students learn the basic voltaic and electrolytic cell concepts during their last year prior to entering an undergraduate...
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SubjectTerms	Chemistry College Science Colleges & universities Education Educational Trends Electrochemical cells Electrochemistry Electrolytic cells Grade 12 High School Students Knowledge Level Learning Problems Mathematics Education Multiple choice Preservice Teachers Reliability Science Curriculum Science Education Science Instruction Science Teachers Scientific Concepts Secondary School Science Secondary school students Secondary schools Students Teacher education Teachers
Title	High School and Preservice Chemistry Teacher Education Students’ Understanding of Voltaic and Electrolytic Cell Concepts: Evidence of Consistent Learning Difficulties Across Years
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