Developing Physics Learning Module Based on Guided Inquiry (PLM-BGI) for Work and Energy

This study aims to produce a feasible, practical, and effective Physics learning materials with guided inquiry models to facilitate high school students science process skills on the static fluids. The learning materials were try outed to the class XI SMA Kemala Bhayangkari 1 Surabaya in the second semester of the academic year 2013/2014 with the replication of three classes which are class XI-IPA 1, XI-IPA 2, and XI-IPA 3. This research is the development research, with four D models. The trial design using one-group pretest-posttest design. The results were obtained: (1) the validity of learning materials were good category; the readability student textbook and worksheets were good category; (2) learning performance was good category; student’s activities were categorized to students centered learning; (3) students gave the positive mastery of learning with high gain scores; all students are quite able to practice skill process throught the performance test. Based on the result and discussion of this research, it can be concluded that the Physics learning materials with guided inquiry models to facilitate science process skills of high school students on the static fluids were feasible, practical, and effective to be used at learning process. Penelitian ini bertujuan untuk menghasilkan perangkat pembelajaran Fisika yang layak, praktis, dan efektif dengan model inkuiri terbimbing untuk melatihkan keterampilan proses sains siswa SMA pada materi fluida statis. Perangkat pembelajaran tersebut diujikan terhadap siswa kelas XI SMA Kemala Bhayangkari 1 Surabaya tahun pelajaran 2013/2014 dengan replikasi tiga kelas yaitu kelas XI-IPA 1, kelas XI-IPA 2, dan kelas XI-IPA 3. Penelitian ini merupakan penelitian pengembangan, dengan model 4-D. Rancangan ujicoba perangkat menggunakan one group pretest-posttest design. Hasil penelitian menunjukkan: (1) validitas perangkat pembelajaran berkategori baik; tingkat keterbacaan buku ajar siswa dan lembar kegiatan siswa berkategori baik; (2) keterlaksanaan RPP berkategori baik; aktivitas siswa menunjukkan pembelajaran yang berpusat pada siswa; (3) respon siswa positif terhadap proses pembelajaran; 93% siswa mencapai ketuntasan hasil belajar dengan skor peningkatan yang tinggi; seluruh siswa sudah cukup mampu untuk berlatih keterampilan proses melalui tes kinerja. Berdasarkan hasil dan diskusi penelitian, dapat disimpulkan bahwa perangkat pembelajaran Fisika dengan model inkuiri terbimbing untuk melatihkan keterampilan proses sains siswa SMA pada materi fluida statis layak, praktis, dan efektif digunakan dalam pembelajaran.

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DEVELOPMENT OF PHYSICS LEARNING MATERIALS BASED ON GUIDED INQUIRY MODEL INTEGRATED WITH VIRTUAL LABORATORY TO FACILITATE STUDENT’S SCIENTIFIC ARGUMENTATION ABILITY

Lensa : Jurnal Kependidikan Fisika ◽

10.33394/j-lkf.v4i1.29 ◽

2016 ◽

Vol 4 (1) ◽

pp. 1

Author(s):

Ahmad Fauzi Hendratmoko ◽

Wasis Wasis ◽

Endang Susantini

Keyword(s):

Lesson Plan ◽

Research Result ◽

Research Data ◽

Virtual Laboratory ◽

Learning Activity ◽

Learning Material ◽

Guided Inquiry ◽

Scientific Argumentation ◽

Learning Materials ◽

Physics Learning

The purpose of this research is to develop physics learning materials based on guided inquiry model integrated with virtual laboratory to practice student’s scientific argumentation skill. This research uses 4D development model and tested in 91 students, divided into three classes, X MIPA 1, X MIPA 2, and X MIPA 3 SMA Senopati Sedati with try out design using one group pretest-posttest design. The learning instruments developed are: (a) syllabus (b) lesson plan, (c) student’s book, (d) student worksheet, and (e) test of students’ scientific argumentation skill. The Research data gotten through validation method, observation, test, and questionnaire. The research result was analyzed descriptively quantitative and qualitative. The students’ scientific argumentation skill was analyzed with n-gain. The research result gotten are (a) the learning instruments developed categorized as very valid, (b) the learning activity was well done, (c) the students’ scientific argumentation skill run into enhancement in middle categorized, and (d) the students responded very positively to the learning that is already implemented. Based on analysis result and discussion, it can be concluded that the physics learning material guided inquiry model integrated with virtual laboratory developed is worthy to be used to practice students’ scientific argumentation skill.

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Validation of Scientific-Based Physics Learning Modules to Improve Critical Thinking Skills in Dynamic Fluid Materials

Path of Science ◽

10.22178/pos.65-5 ◽

2020 ◽

Vol 6 (12) ◽

pp. 3007-3011

Author(s):

Alpi Zaidah ◽

◽

Ermila Mahariyanti ◽

Keyword(s):

High School ◽

Critical Thinking ◽

Thinking Skills ◽

Development Stage ◽

Critical Thinking Skills ◽

Physics Learning ◽

Learning Modules ◽

Learning Module ◽

Validity Criteria ◽

D Model

This study aims to obtain a valid scientific-based physics learning module to improve critical thinking skills in Dynamic Fluid material for high school/MA students. This study uses a research development design and approach or is included in development research. In this study, a scientific-based physics learning module was developed. The development of this module refers to the development of the (4-D model) proposed by Thiagarajan. This model consists of 4 development stages, namely (Define, Design, Develop, and Disseminate). However, this study is only limited to the development stage, namely the validation stage. The validation test is a theoretical validation. Namely, assurance carried out by experts in their fields. The confirmation includes material, media, language, teacher and peer validation. The research results found that the physics-based learning module was scientifically based on improving critical thinking skills in Dynamic Fluid material for high school / MA students, which were developed to meet the validity criteria. In conclusion, the physics-based learning module to improve critical thinking skills in Dynamic Fluid material for high school / MA students is very well developed.

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PEMBELAJARAN FISIKA MELALUI INKUIRI TERBIMBING DENGAN METODE EKSPERIMEN DAN DEMONSTRASI DITINJAU DARI AKTIVITAS DAN PERHATIAN MAHASISWA1)

Jurnal Penelitian Pembelajaran Fisika ◽

10.26877/jp2f.v1i1.104 ◽

2012 ◽

Vol 1 (1) ◽

Author(s):

Jeffry Handhika

Keyword(s):

Learning Method ◽

Guided Inquiry ◽

Physics Learning ◽

Experiment Method ◽

Student Attention

The objective of the research are to know : (1) the effect of guided inquiryphysics learning using eksperiment and demonstration method to theconcept?óÔé¼Ôäós mastery in dynamic electricity, (2) the effect of high, medium andlow activity in physics learning to the concept?óÔé¼Ôäós mastery in dynamicelectricity, (3) the effect of high, medium and low physics learning collagestudent attention in physics learning to the concept?óÔé¼Ôäós mastery in dynamicelectricity, (4) interaction in physics learning between learning method andactivity to the concept?óÔé¼Ôäós mastery in dynamic electricity, (5) interaction inphysics learning between learning method and physics learning collegestudent attention to the concept?óÔé¼Ôäós mastery in dynamic electricity; (6)interaction in physics learning between activity and physics learning collagestudent attention to the concept?óÔé¼Ôäós mastery in dynamic electricity, (7)interaction in physics learning between learning method, activity and physicslearning collage student attention to the concept?óÔé¼Ôäós mastery in dynamicelectricity. The research is using experiment method. The technique ofanalyzing data is ANAVA three ways different cell. Based on the result of theresearch are concluded : (1) there is an effect of guided inquiry physicslearning using eksperiment and demonstration method to the concept?óÔé¼Ôäósmastery in dynamic electricity, (2) there is an effect of high, medium and lowactivity in physics learning to the concept?óÔé¼Ôäós mastery in dynamic electricity,(3) there is an effect of high, medium and low physics learning collagestudent attention in physics learning to the concept?óÔé¼Ôäós mastery in dynamicelectricity, (4) there is no interaction in physics learning between learningmethod and activity to the concept?óÔé¼Ôäós mastery in dynamic electricity, (5) thereis no interaction in physics learning between learning method and physicslearning second collage student attention to the concept?óÔé¼Ôäós mastery indynamic electricity; (6) there is no interaction in physics learning betweenactivity and physics learning collage student attention to the concept?óÔé¼Ôäósmastery in dynamic electricity, (7) there is no interaction in physics learningbetween learning method, activity and physics learning collage studentattention to the concept?óÔé¼Ôäós mastery in dynamic electricity.

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The Development of Students’ Worksheet Based on Guided Inquiry (SW-BGI) for Work and Energy

Proceedings of the Brawijaya International Conference on Multidisciplinary Sciences and Technology (BICMST 2020) ◽

10.2991/assehr.k.201021.044 ◽

2020 ◽

Author(s):

Endang Susilawati ◽

Agustinasari ◽

Parsaoran Siahaan ◽

Achmad Samsudin

Keyword(s):

Guided Inquiry ◽

Development Of Students ◽

Work And Energy

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ENHANCING STUDENTS’ SCIENCE COMMUNICATION SKILLS THROUGH MORE LEARNING MODEL

JPPS (Jurnal Penelitian Pendidikan Sains) ◽

10.26740/jpps.v10n1.p1844-1856 ◽

2020 ◽

Vol 10 (1) ◽

pp. 1844

Author(s):

Taufanny Putri Pratiwi ◽

Munasir Munasir ◽

Nadi Suprapto

Keyword(s):

Mixed Methods ◽

Communication Skills ◽

Mixed Method ◽

Science Communication ◽

Communication Skill ◽

Learning Model ◽

Physics Learning ◽

Energy Concept ◽

Learning Constraints ◽

Work And Energy

A This study aims to analyze students’ science communication skills in the physics learning process especially in the Work and Energy concept using (Model-Observe-Reflect-Explain) MORE learning models. The research used a mixed method by utilizing test, questionnaires, and interviews with 10th and 11st grade students majoring in science, physics teachers and headmaster. The data was obtained by taking the physics scores of students in the work and energy concept who have received learning with the MORE learning model, then provides a questionnaire containing the obstacles faced by students in learning physics and interviews with students and teachers regarding learning constraints and science communication skills after learning using the MORE learning model. The findings indicated the MORE learning model helps students in practising science communication skills in learning with good student science communication skills will increase students’ understanding of Work and Energy concepts as seen from the students’ scores in the work and energy concept. Keywords: science communication skill, MORE learning model, mixed methods, physics, cognitive ability Abstrak Penelitian ini bertujuan untuk menganalisis keterampilan komunikasi sains siswa dalam proses pembelajaran fisika khususnya pada materi pembelajaran Usaha dan Energi dengan menggunakan model pembelajaran (Model-Observe-Reflect-Explain) MORE. Penelitian ini menggunakan mixed method dengan menggunakan tes, angket, dan wawancara yang diberikan pada siswa kelas 10 dan 11 jurusan IPA, guru-guru fisika dan kepala sekolah. Pengumpulan data dilakukan dengan cara mengambil nilai fisika siswa yang telah mendapatkan pembelajaran pada materi Usaha dan Energi dengan model pembelajaran MORE, kemudian memberikan angket yang diisikan kendala-kendala yang dihadapi siswa selama proses pembelajaran fisika dan wawancara dengan siswa dan guru mengenai kendala-kendala selama proses pembelajaran untuk melatihkan keterampilan komunikasi sains dengan menggunakan model pembelajaran MORE. Hasil penelitian yang diperoleh, menunjukkan bahwa model pembelajaran MORE dapat membantu siswa dalam melatihkan keterampilan komunikasi sains dalam pembelajaran fisika. Meningkatnya keterampilan komunikasi sains siswa maka akan meningkatkan pula pemahaman siswa pada materi Usaha dan Energi yang terlihat dari nilai yang diperoleh siswa. Kata Kunci: keterampilan komunikasi sains, model pembelajaran MORE, mixed methods, fisika, kemampuan kognitif

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