• Title/Summary/Keyword: Chemistry II textbooks

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Analysis of the Reading Materials in the Chemistry Domain of Elementary School Science and Middle School Science Textbooks and Chemistry I and II Textbooks Developed Under the 2009 Revised National Science Curriculum (2009 개정 초등학교와 중학교 과학 교과서의 화학 영역 및 화학 I, II 교과서의 읽기자료 분석)

  • An, Jihyun;Jung, Yooni;Lee, Kyuyul;Kang, Sukjin
    • Journal of the Korean Chemical Society
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    • v.63 no.2
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    • pp.111-122
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    • 2019
  • In this study, the characteristics of the reading materials in the chemistry domain of elementary school science and middle school science textbooks and chemistry I and II textbooks developed under the 2009 Revised National Science Curriculum were investigated. The criteria for classifying the reading materials were the types of theme, purpose, types of presentation, and students' activity. The inscriptions in the reading materials were also analyzed from the viewpoint of type, role, caption and index, and proximity type. The results indicated that more reading materials were included in the elementary science textbooks compared to middle school science, chemistry I, and/or chemistry II textbooks. The percentage of application in everyday life theme was high in the reading materials of elementary science textbooks, whereas the percentage of scientific knowledge theme was high in those of middle school science, chemistry I, and/or chemistry II textbooks. It was also found that the percentage of expanding concepts purpose was high in the reading materials of elementary science textbooks, whereas the percentage of supplementing concepts purpose was high in those of middle school science, chemistry I, and/or chemistry II textbooks. Several limitations in the use of inscriptions were found to exist; most inscriptions were photograph and/or illustration; most inscriptions were supplementing or elaborating texts; many inscriptions were presented without a caption or an index; there was a problem in the proximity of inscriptions to text.

Analysis of Explanations and Examples of the Brønsted-Lowry Model Presented in Chemistry Textbooks Developed by 2009 Revised Curriculum (2009 개정교육과정의 화학교과서에 제시된 Brønsted-Lowry 모델에 관한 설명과 예시의 문제점 분석)

  • Choi, Hee;Park, Chul-Yong;Kim, Sungki;Paik, Seoung-Hey
    • Journal of the Korean Chemical Society
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    • v.62 no.4
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    • pp.279-287
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    • 2018
  • In this study, we analyzed the explanations and examples of Brønsted-Lowry model in Chemistry I and Chemistry II textbooks of the 2009 revised curriculum. In particular, the definition of the Brønsted-Lowry model, the examples, and the content of experiments were analyzed by the process perspective of chemical equilibrium, emergent process. The analyzed textbooks were 4 kinds of Chemistry I textbooks and 4 kinds of Chemistry II textbooks in 2009 revision curriculum. As a result, Chemical I textbooks did not adequately show the chemical equilibrium viewpoint when explaining the Brønsted-Lowry model. In the Chemistry II textbooks, the examples of Brønsted-Lowry model were not present emergent process viewpoint, and those were described as sequential viewpoint of Arrhenius model. In addition, examples of experiments to demonstrate the Brønsted-Lowry model of Chemistry II textbooks were insufficient. The experimental examples related to the definition of acid bases were at the level of classification by the color change of indicators. The experimental examples for explaining the strength of acid and base were to compare current intensity or amount of hydrogen gas generated from the reaction with metal. In addition, all textbooks presented the state of aqueous solution when describing the Brønsted-Lowry model, causing problems with differentiation from the Arrhenius model. Therefore, it is necessary to develop examples of experiments to help students understand Brønsted-Lowry model by presenting acid and base reaction in the non-aqueous solution state.

Analysis of 'Ignorance' in Acid-base Models Contents of Chemistry I and Chemistry II Textbooks & Teacher's Guides in 2009 & 2015 Revised Curriculum (2009·2015 개정 교육과정 화학 I 및 화학 II 교과서 및 교사용 지도서에 제시된 산·염기 모델 내용에 대한 '이그노런스' 분석)

  • Lyu, Eun-Ju;Paik, Seoung-Hey
    • Journal of the Korean Chemical Society
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    • v.64 no.3
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    • pp.175-188
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    • 2020
  • The purpose of this study was to analyze chemistry textbooks and teachers' guidebooks from the perspective of 'Ignorance', one of the important features of model. This is because the emphasis is on developing modeling capabilities for students in the 2015 Revised Curriculum. For this, Arrhenius model and Brønsted-Lowry model were selected as acid and base models in neutralization reaction which are important contents in chemistry curriculum. The analysis criteria of this study were extracted by analyzing previous studies and four general chemistry textbooks dealing with 'Ignorance' related to acid and base neutralization reaction. Based on the analysis criteria, we analyzed nine chemistry I textbooks and teacher's guides and six chemistry II textbooks and teacher's guides of the 2015 revised curriculum. In addition, we analyzed contents of four chemistry I textbooks and teacher's guides and three chemistry II textbooks and teacher's guides in the 2009 revised curriculum for comparison according to revised curriculums. We analyzed the contents related to the concept of 'neutralization reaction', 'neutrality', 'quantitative relation of neutralization reaction', 'degree of ionization', and 'ionization constant'. Based on the results of this study, we proposed a way to present 'Ignorance' of the models in teachers' guidebooks that chemistry teachers can understand 'Ignorance' of model and teach modeling capabilities for students.

Analysis of Problems in the Submicro Representations of Acid·Base Models in Chemistry I and II Textbooks of the 2009 & 2015 Revised Curricula (2009 개정교육과정과 2015 개정교육과정의 화학 I 및 화학 II 교과서에서 산·염기 모델의 준미시적 표상에 대한 문제점 분석)

  • Park, Chul-Yong;Won, Jeong-Ae;Kim, Sungki;Choi, Hee;Paik, Seoung-Hey
    • Journal of the Korean Chemical Society
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    • v.64 no.1
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    • pp.19-29
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    • 2020
  • We analyzed the representations of acid-base models in 4 kinds of Chemistry I and 4 kinds of Chemistry II textbooks of the 2009 revised curriculum, and 9 kinds of Chemistry I textbooks and 6 kinds of chemistry II textbooks of the 2015 revised curriculum in this study. The problems of the textbook were divided into the problems of definitions and the representations of the logical thinking. As a result of the study, the lack of the concept of chemical equilibrium had a problem with the representation of reversible reactions in the definition of the Brønsted-Lowry model in the Chemistry I textbooks of 2009 revised curriculum, it also appeared to persist in Chemistry I textbooks of 2015 revised curriculum which contains the concept of chemical equilibrium. The representations of logical thinking were related to particle kinds of conservation logic, combinational logic, particle number conservation logic, and proportion logic. There were few problems related to representation of logical thinking in Chemistry I textbook in 2009 revision curriculum, but more problems of representations related to logics are presented in Chemistry I textbooks in 2015 revision curriculum. Therefore, as the curriculum is revised, the representations of chemistry textbooks related to acid and base models need to be changed in a way that can help students' understanding.

Analysis of Textbooks of Chemistry I, II and Survey of Chemistry Education Major Pre-service Teachers' Perception Related to the Electron Transfer Model (전자 이동 모델에 대한 화학 I, 화학 II 교과서 분석 및 화학 교육 전공 예비교사들의 이그노런스 인식 조사)

  • Ryu, Eun-Ju;Jeon, Eun-Sun;Paik, Seoung-Hey
    • Journal of the Korean Chemical Society
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    • v.65 no.5
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    • pp.358-369
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    • 2021
  • In this study, the contents of the electron transfer model presented in the 4 chemistry I and the 4 chemistry II textbooks of 2009 revised curriculum and 9 chemistry I textbooks and 6 chemistry II textbooks of 2015 revised curriculum were analyzed in the viewpoint of model's Ignorance. In addition, 3 questions were developed to find out whether 24 pre-service teachers were perceived of the Ignorance of the electron transfer model. As a result, Most textbooks explain the redox reaction of covalent bond substances, which is an inconsistent context of the electron transfer model, with mixing oxidation number change and electron transfer or with electron transfer. In addition, the change to the development and use of the model emphasized in the 2015 revised curriculum was not clearly revealed in the curriculum comparison. Most pre-service teachers incompletely perceived or did not perceive Ignorance of the electron transfer model. Only 1 pre-service teacher perceived Ignorance of the model. In conclusion, the textbook description needs to be improved so that Ignorance of the model is revealed when the textbook describes the inconsistent situation of the electron transfer model. And through the education for pre-service teachers, it is necessary to provide an opportunity for pre-service teachers to perceive Ignorance of the electron transfer model.

An Analysis of High School Science Textbook Contents and Pre-service Teachers' Perceptions Related to Sulfuric Acid (황산에 대한 고등학교 교과서 내용 분석 및 예비교사들의 인식 조사)

  • Ryoo, Jae-Jeong;Ryu, Jeong-Eun;Paik, Seoung-Hey
    • Journal of the Korean Chemical Society
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    • v.54 no.2
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    • pp.240-247
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    • 2010
  • The purposes of this study were to analyze the contents of sulfuric acid in Science textbooks and Chemistry II textbooks, and to survey 10 pre-service teachers' perceptions who majored chemistry education related to sulfuric acid. As results, most of the Science textbooks represented that sulfuric acid was divided into two $H^+$ and one $SO_4{^{2-}}$. But this mistake might be corrected because sulfuric acid was divided into one $H^+$and one $HSO_4{^-}$. Most of Chemistry II textbooks represented ionization steps of sulfuric acid, but same mistake was represented in some of Chemistry II textbooks. $HSO_4{^-}$ is a weak acid, but some Chemistry II textbooks represented $HSO_4{^-}$ as a strong acid. As results of the survey related to pre-service teachers' perceptions, some pre-service teachers didn't know the situation of particles in sulfuric acid solution, and they were affected on by the learning of high school classrooms.

Analysis of Contents related to Models in the Chemistry Textbooks of the 2009 & 2015 Revised Curricula: Focusing on the Electrolysis of Aqueous Solutions (2009 및 2015 개정 교육과정의 화학 교과서에서 모델 관련 내용 분석: 수용액 전기 분해를 중심으로)

  • Kim, Kihyang;Chang, Hasok;Paik, Seoung-Hey
    • Journal of the Korean Chemical Society
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    • v.63 no.4
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    • pp.289-306
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    • 2019
  • The purpose of this study is to compare the contents of chemistry textbooks developed according to the 2015 revised curriculum with the contents of the 2009 revised curriculum to research the change in "the development and use of models". To do this, we analyzed 8 kinds of Chemistry I textbooks and 6 kinds of Chemistry II textbooks from the 2015 revised curriculum and compared them with 4 kinds of Chemistry I textbooks and 4 kinds of Chemistry II textbooks from the 2009 revised curriculum. The scope of the analysis was the explanations of the textbooks related to aqueous electrolysis experiments. In order to compare the contents regarding electrolytes when the same experiments are interpreted with different models, we analyzed contents of 4 kinds of middle school science textbooks from the 2015 revised curriculum and 9 kinds of middle school science textbooks from the 2009 revised curriculum. As a result of the analysis, the same experiment was explained by different models according to the grade level and unit, and all explanations were limited to a single model. Also, the tendency to limit the kinds of electrolytes for controlled experimental results is more pronounced in the 2015 revised curriculum than in the 2009 revised curriculum. From this results, we suggest that efforts are needed to reflect the "development and use of models" in chemistry textbooks developed according to the 2015 revised curriculum.

Analysis of Inquiry Activities in High School Chemistry II Textbooks based on the 2009 Revised Science Curriculum: Focus on 8 Science Practices (2009 개정 교육과정에 따른 화학II교과서에 포함된 탐구 활동 분석: 8가지 과학 실천을 중심으로)

  • Jeon, Young;Choi, Aeran
    • Journal of the Korean Chemical Society
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    • v.60 no.1
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    • pp.59-68
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    • 2016
  • The cultivation of scientific literacy in recent science education can be improved by experiencing and understanding scientific inquiry by which scientific knowledge is formed. The National Research Council(NRC) released the Next Generation Science Standards (NGSS) including 8 practices of science that help students experience scientists' inquiry and subdividing achievement standards to perform 8 practices of science into by grade clusters. This study was intended to examine science inquiry activities included in 4 high school chemistry II textbooks developed by the 2009 revised curriculum using the 8 scientific practices and their achievement standards for 9th-12th grade. The science inquiry activities and the science practices included in the 4 textbooks were 173 and 678. The science practices included in the inquiry activities of 4 textbooks included the most ‘analyzing and interpreting data.’ The ‘engaging in argument from evidence’, ‘Obtaining, Evaluating, and Communicating Information’ were less than other practices. The ‘asking questions and defining problem’ and ‘developing and using models’ were not nearly included in the 4 high school chemistry II textbooks.

Analysis of Achievement Standards, Activities, and Assessment Items in Integrated Science, Chemistry I, Chemistry II Textbooks on Science Core Competency: Focusing on Acid·Base·Neutralization and Oxidation·Reduction (통합과학, 화학 I, 화학 II의 성취기준과 교과서 활동 및 평가 문항의 과학과 핵심역량 분석: '산·염기·중화반응'과 '산화·환원'을 중심으로)

  • Ko, EunAh;Choi, Aeran
    • Journal of the Korean Chemical Society
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    • v.63 no.6
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    • pp.486-504
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    • 2019
  • This study analyzed achievement standards in the 2015 Science Education Standards as well as activities and assessment items in the Integrated Science, Chemistry I, and Chemistry II textbooks using science core competencies and subcomponents. All five scientific core competencies, in order of scientific thinking capacity, scientific inquiry capacity, scientific communication capacity, scientific problem solving capacity, and scientific participation and lifelong learning capacity, were included in the achievement standards of Integrated Science. Scientific thinking capacity, scientific inquiry capacity, and scientific communication capacity were included in the achievement standards of Chemistry I. The achievement standards of Chemistry II only included scientific thinking capacity. All five scientific core competencies were involved in activities of Integrated Science, Chemistry I, and Chemistry II textbooks and the highest propotion was scientific thinking capacity and scientific inquiry capacity. All five scientific core competencies were involved in assessment items of Integrated Science, Chemistry I, and Chemistry II textbooks and the highest proportion was scientific thinking capacity.

A Comparative Analysis of Contents Levels Required by High School Chemistry II Textbooks by the 7th National Education Curriculum and Cognitive Levels of 12th Grade Students (제7차 교육과정에 의한 고등학교 화학II 교과서의 내용수준과 고등학교 3학년 학생들의 인지수준 비교 분석)