Lessons from the History of the Concept of the Ray for Teaching Geometrical Optics

Andreou, Chrisoula; Raftopoulos, Athanassios

doi:10.1007/s11191-010-9302-7

Cited by 4 publications

(2 citation statements)

References 38 publications

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“…The scientists also used the phenomenon as the basis for generating a new theory. For example, Ibnu Sahl discovered the law of refraction by investigating the phenomenon of how curved mirrors and lenses bend and focus light [18,19].…”

Section: Introductionmentioning

confidence: 99%

Scientific Explanation of Light through Phenomenon-based Learning on Junior High School Student

Islakhiyah¹,

Sutopo²,

Yulianti³

2018

Proceedings of the 1st Annual International Conference on Mathematics, Science, and Education (ICoMSE 2017)

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This study was intended to explore the improvement of scores that measure students' scientific explanation of light through phenomenon-based learning. Students conduct an investigation and make an explanation about the phenomenon being observed. The study employed mixed methods with an embedded experimental model. The subject consisted of 28 students of eighth graders in junior high school 3 of Malang, Indonesia. Test, interview, and observation collected the data. Pre-test and post-test scores were analyzed with a paired sample t-test, N-gain score, and d-effect size. The data of pre-test and N-gain score were analyzed with product moment Pearson correlation test. The quality of scientific explanation was collected based on the component that consists of claim, evidence, and reasoning. The result showed that the average of students' scientific explanation scores significantly improved from 1,39 in pre-test into 5,68 in post-test with adeffect size of about 3,6 which was categorized as a strong influence and an average N-gain of 0,40 which was categorized as a medium. Students' scientific explanation shifted significantly from invalid category to fully supported category. The benefits of learning for the improvement of scientific explanation have been obtained by the students equally.

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Section: Introductionmentioning

confidence: 99%

Scientific Explanation of Light through Phenomenon-based Learning on Junior High School Student

Islakhiyah¹,

Sutopo²,

Yulianti³

2018

Proceedings of the 1st Annual International Conference on Mathematics, Science, and Education (ICoMSE 2017)

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“…4, Bln April, Thn 2020, Hal 486-492 secara efektif (Masters & Grove, 2010). Pembentukan bayangan yang dihasilkan oleh cermin, lensa atau alat-alat optik merupakan titik potong dari sinar pantul atau sinar bias sehingga materi optik sebagian besar direpresentasikan dalam gambar dan matematis (Andreou & Raftopoulos, 2011;Djanette & Fouad, 2014). Siswa akan menemukan beberapa jenis representasi dalam mempelajari materi optik.…”

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Pengaruh Pembelajaran Group Investigation dengan Multi Representasi pada Topik Alat-Alat Optik terhadap Penalaran Ilmiah dan Kemampuan Masalah Siswa SMA

Marga

Supriana

Hidayat

2020

Jur.Pend.Teo.Pen.Peng.

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Abstract: The purpose of this study is to determine the impact of group investigation learning model with multi representation on the topic of optical devices on scientific reasoning and problem solving skill. This study were carried out using quasi experimental method with pretest-posttest control group design and two XI MIA classes as sample. The result showed that there were an impact of group investigation learning model with multi representation on the topik of optical devices on scientific reasoning and problem solving skill of high school students. The mean value of scientific reasoning and problem solving ability of experimental class students who learned by group investigation learning model with multi representation is higher than control class students who learned by group investigation learning model.Abstrak: Penelitian ini bertujuan untuk mengetahui pengaruh pembelajaran group investigation dengan multi representasi pada topik alat-alat optik terhadap kemampuan penalaran ilmiah dan kemampuan problem solving siswa SMA. Metode penelitian yang digunakan adalah eksperimen kuasi dengan desain pretest-posttest control group dengan dua kelas XI MIA sebagai sampel. Hasil penelitian menunjukkan adanya pengaruh pembelajaran group investigation dengan multi representasi pada topik alat-alat optik terhadap kemampuan penalaran ilmiah dan pemecahan masalah siswa SMA. Nilai rerata penalaran ilmiah dan kemampuan problem solving siswa kelas eksperimen yang belajar menggunakan pembelajaran group investigation dengan multi representasi lebih tinggi dari siswa kelas kontrol yang belajar menggunakan pembelajaran group investigation.

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Teaching Optics: A Historico-Philosophical Perspective

Galili

2013

International Handbook of Research in History, Philosophy and Science Teaching

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Lessons from the History of the Concept of the Ray for Teaching Geometrical Optics

Cited by 4 publications

References 38 publications

Scientific Explanation of Light through Phenomenon-based Learning on Junior High School Student

Scientific Explanation of Light through Phenomenon-based Learning on Junior High School Student

Pengaruh Pembelajaran Group Investigation dengan Multi Representasi pada Topik Alat-Alat Optik terhadap Penalaran Ilmiah dan Kemampuan Masalah Siswa SMA

Teaching Optics: A Historico-Philosophical Perspective

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