• Title/Summary/Keyword: Law of definite proportions

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A Comparison of Instruction Effectiveness between the Experiment of Precipitation and the Experiment with Ball and Stick Model Related to 'Law of Definite Proportions' (일정성분비의 법칙에 관련된 앙금생성실험과 모형실험수업의 효과 비교)

  • Paik, Seoung-Hey;Kim, Hyeong-Sam;Han, Yu-Haw;Kim, Seoung-Hey
    • Journal of the Korean Chemical Society
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    • v.54 no.3
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    • pp.338-349
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    • 2010
  • This study compared the instruction effectiveness between experiments of precipitation and a ball & stick model related to the 'Law of Definite Proportions' of 9th grade science in this study. The subjects were 250 students in the 9th grade. They were divided into two groups, an experimental group and a model group. The results showed that the ratio of thought in which the elements were divided in the solutions and the ratio of thought in which a new compound was created when the two solutions were mixed were higher in the precipitation experiment group than in the model group. The two groups were not different in terms of the ratio of thought related to the reason for the creation of the precipitate. The ratio of thought pertaining to incorrect answers was high, implying that the two strategies were not effective in correcting students' thoughts. However, the ratio of finding patterns from the measuring data in the model group was higher than in the experimental group. However, the ratios of 'definite proportions' inference in the bonding of the reactants were similar in the two groups. From these data, we concluded that the inference of the 'Law of definite proportion' from experiments or models was not suitable for middle school students.

Comparison of 9th Grade Students' Understanding According to Experiments on the "Law of Definite Proportions" in Science Textbooks (교과서 실험 종류에 따른 중3 학생들의 "일정성분비의 법칙"에 관한 이해도 비교)

  • Han, Yu-Hwa;Lee, Min-Sook;Paik, Seoung-Hey
    • Journal of The Korean Association For Science Education
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    • v.27 no.1
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    • pp.50-58
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    • 2007
  • In this study, students' thoughts were searched according to the types of experiments related to the "law of definite proportions" in 9th grade science textbooks. The most common four types of experiments in textbooks were selected and analyzed for this study. It was found that the experiments needed various preconceptions and complex inferring process by students. But most of the students could not catch the concept understanding desired from the experiments. They just perceived simple observation from their senses. These phenomena were common regardless of types of experiments. These means that the level of preconceptions and inferring process for the interpretation of the experimental data did not match with students' level of thoughts. The goals of the experiments in science textbooks are to increase students' inquiry ability, and to acquire science concepts by themselves from the experiment results. But if the contents of experiments are not suitable to students' understanding level, the educational effects of the performance of these experiments were not positive. Therefore, these experiments need contents revisions for students to acquire the concept related to the "law of definite proportions" by themselves.

A research of the Difference in Teaching Styles and Understanding of 9th Grade Students About Lead-iodide Precipitation Reaction Experiment (중학교 3학년 요오드화납 생성반응 실험의 수업 방식 차이와 학생들의 이해에 관한 연구)

  • Baek, Seong-Hye;Jeong, Seon-Ja
    • Journal of the Korean Chemical Society
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    • v.50 no.5
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    • pp.374-384
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    • 2006
  • this study, the teaching methods of three science teachers for lead-iodide precipitation reaction experiment were compared. The difference of 9th grade students' understanding was searched according to the science teachers teaching styles, also. Among the three teachers, Teacher A taught students based on the science textbook and allowed students to think themselves and to get out conclusion by the experiment. Teacher B and Teacher C gave students a lot of explanations related to interpretation of the experiment. The percentage of no response on the experiment report of Teacher A was higher than those of Teacher B and Teacher C. But the students of Teacher B and Teacher C tended to have limited thoughts because of the teachers explanations. In spite of the difference, it was common phenomenon that few students understood concepts through the experiment. A lot of students were interested in the experiment, but it was hard to understand Law of definite proportions according to the experiment.

The Teachers' and Students' Perceptions on Lectures and Experiments of Law of Definite Proportion in Middle School Science Classes (중학교 과학 수업에서 일정성분비 법칙의 강의와 실험에 대한 교사 및 학생들의 인식)

  • Han, Gam-Bong;Min, Hee-Jung;Paik, Seoung-Hey
    • Journal of the Korean Chemical Society
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    • v.56 no.1
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    • pp.144-158
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    • 2012
  • In this study, science teachers' and students' perceptions were searched on lectures and experiment of law of definite proportion in middle school science classes. For this study, the three teachers' lessons were observed and recorded, following interviews related to teachers' perceptions on the lessons and experiments. Also, We analyzed students' science scores, cognitive levels, science attitude, experimental reports, etc. According to the results, the three teachers had different focuses in the lectures. Chemistry teachers accentuated calculation of proportions and application rather than basic conceptions. But the students could not understand basic conceptions properly. The teachers spend long time to explain experimental procedures by assuming a low performance level of students in experimental classes. And the teachers had negative perceptions about error of results. The students could not understand the experiment results well, tried to manipulate data artificially, and had negative perceptions about error of results like the teachers. We suggested that these problems might be solved by changing teachers' perceptions on school science lectures and experiments.

The Effect of Grouping by Communication Apprehension Level in Paired Think-Aloud Problem Solving for Middle School Chemistry (중학교 화학에 적용한 해결자.·청취자 활동에서 의사소통 불안 수준에 따른 소집단 구성의 효과)

  • Kang, Hun-Sik;Lee, Jeong-Soon;Kim, Kyung-Sun;Jeon, Kyung-Moon;Noh, Tae-Hee
    • Journal of the Korean Chemical Society
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    • v.51 no.6
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    • pp.569-576
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    • 2007
  • In this study, the effect of grouping by communication apprehension level in paired think-aloud problem solving was examined. Three classes of 9th graders (N=99) were randomly assigned to a control group, homogeneous group or heterogeneous group based on the test scores of their communication apprehension. After the instructions concerning ‘writing balanced chemical equation', ‘the law of conservation of mass', and ‘the law of definite proportions' for 7 class hours, students' chemistry problem solving ability and the perception to the paired think-aloud problem solving were examined. Two-way ANOVA results revealed that there was an interactive effect in the score of chemistry problem solving ability test. In simple effect test for the students of low communication apprehension, the scores of the heterogeneous group were found to be significantly higher than those of the control group. However, the students in homogeneous group had relatively positive perceptions to the paired think-aloud problem solving.