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Jurnal Pendidikan Fisika
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Core Subject : Science, Education,
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Articles 10 Documents
Search results for , issue " Vol 5, No 2 (2016)" : 10 Documents clear
EFFECT OF INQUIRY LEARNING MODEL TRAINING AND CRITICAL THINKING SKILLS ON SCIENTIFIC KNOWLEDGE CLASS X Harefa, Envilwan; Sirait, Motlan; M. Ginting, Eva
Jurnal Pendidikan Fisika Vol 5, No 2 (2016)
Publisher : Universitas Negeri Medan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22611/jpf.v5i2.4403

Abstract

The aims of research were to analize: (1) Student’s skill proccess science by using inquiry training learning model better than direct intruction learning model; (2) Student’s skill process science who had under average better than above average category in scientific knowledge; and (3) the interaction between learning model and the level of scientific knowledge in fluencing student’s skill process science. The research was quasi-experimental research. The population of this research is all of thenth grade students of SMAN 3 Gunungsitoli. The sample of this researchconsist of grade with was taken by cluster random sampling were X2 and X3 class.The research instrument consisted of skill process science essay test and criticalthinking skills test data be analysed by using Two–way ANAVA. Result of theresearch showed that kill of the student science process (1) between inquiry training and direct intruction, where inquiry training better than direct intruction, (2) between group of student in the group of the students scientific knowledgeupon and under of mean, where scientific knowledge upon of mean better then scientific knowledge under of mean, (3) no interaction between inquiry training and scientific knowledge increased skill of student science process.
THE INFLUENCE OF LEARNING INSTRUMENTS PROBLEM BASED LEARNING MODEL TO IMPROVE PHYSICS LEARNING OUTCOMES IN STATIC FLUID T. M. Ambarita, Pretti; ., Sahyar; A.Sani, Ridwan
Jurnal Pendidikan Fisika Vol 5, No 2 (2016)
Publisher : Universitas Negeri Medan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22611/jpf.v5i2.4408

Abstract

The objective of this research were to produce a lesson plans and worksheets learning instrument design that corresponded to problem based learning models and analyze whether it was can improve student learning outcomes. This research development was done in classroom by using development research methods of Analysis Design Development Implementation and Evaluation (ADDIE). ADDIE method was used as a method for designing a lesson plans and worksheets that corresponded to it. Three stages of development of lesson plans and worksheets such as an assessment by a team of experts, small group, and a field test. Assessment by a team of experts based on theree aspects such as format, content, and language. In small group and field test based on a response of students sheet. The student response sheet contains of teachers ability to teach. Worksheet assessment based on aspects of the format, content, and language. Assessment of student learning outcomes based on pretest and posttest were analyzed by ngain. The results of development of lesson plans and worksheets were validated by a team of experts on aspects of format, content, and language. The result both of development of lesson plans and worksheets in small group and field test produced good categories. There was an increased student learning outcomes of  first to third meeting with categories of low to moderate.
EFFECT OF PROBLEM SOLVING LEARNING MODEL AND UNDERSTANDING THE CONCEPT OF PHYSICS STUDENT LEARNING OUTCOMES Sijabat, Apriani; ., Motlan; ., Derlina
Jurnal Pendidikan Fisika Vol 5, No 2 (2016)
Publisher : Universitas Negeri Medan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22611/jpf.v5i2.4404

Abstract

This research aims to analyze the students’ problem solving ability in problem solving model and conventional learning, analyze the students’ problem solving ability between the students who have understanding the concept above the average and the students who have understanding below the average, and also analyze the interaction between the learning model and the understanding concept on the students’ problem solving ability. This research is quasi experiment. Sample selection was done by using random class technique twice, where the first class was taught problem solving model while the second class was taught conventional learning. The instrument which was used consisted of the tests of problem solving ability and test of understanding the concept. The data in this research was analyzed by using two way anova. The result of this research showed that the students’ problem solving ability who was taught problem solving model was better than the students’ problem solving ability who was taught conventional, the students’ problem solving ability with understanding the concept above the average showed a better result than the students with understanding the concept below the average, and there was an interaction between problem solving model and understanding the concept on the students’ problem solving ability
EFFECT OF PROBLEM BASED LEARNING AND MODEL CRITICAL THINKING ABILITY TO PROBLEM SOLVING SKILLS S. Zuliani Nasution, Unita; ., Sahyar; Sirait, Makmur
Jurnal Pendidikan Fisika Vol 5, No 2 (2016)
Publisher : Universitas Negeri Medan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22611/jpf.v5i2.4409

Abstract

The purposes of this research were to analyze the different between physic resolving problem ability by using problem based learning model and direct instruction model, the different of physic resolving problem ability between the students that have critical thinking ability upper the average and the students that have critical thinking ability under the average, and the interaction of problem based learning model toward critical thinking ability and students’ physic resolving problem ability. This research was quasy experimental research that use critical thinking ability tests and physic resolving problem ability tests as the instruments. Result of the research showed that the students’ physic resolving problem ability by using problem based learning model was better than by using direct instruction model, students’ physic resolving problem ability and critical thinking ability upper the average showed better different and result than students’ critical thinking ability under the average, besides there was an interaction between problem based learning model and critical thinking ability in improving students’ physic resolving problem ability.
THE APLICATION OF PROBLEM BASED LEARNING MODEL ON HEAT AND TEMPERATURE Simamora, Pintor; Rotua Estomihi Pardede, Victorya
Jurnal Pendidikan Fisika Vol 5, No 2 (2016)
Publisher : Universitas Negeri Medan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22611/jpf.v5i2.4399

Abstract

This study aims to determine the effect of Problem Based Learning model to student learning outcomes on subject of Heat and Temperature. This research is quasi-experimental. Techniques that used to gain a sample is random-cluster-sampling technique that was chosen two classes as experimental and control classes. Instruments in the form of essays tests and observation sheets to measure affectivepsychomotor of students. Pretest data on both classes showed that both classes have the same ability. Then be given treatment which experimental class with Problem Based Learning and control class with Conventional Learning. From the t-test results there is effect of Problem Based Learning model to student learning outcomes.
ANALYSIS OF PHYSICS LEARNING INSTRUMENTS BASED PROBLEM BASED LEARNING MODEL Nasution, Rizka Hasmi; ., Sahyar; Sani, Ridwan A
Jurnal Pendidikan Fisika Vol 5, No 2 (2016)
Publisher : Universitas Negeri Medan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22611/jpf.v5i2.4405

Abstract

This study aims to produce a device design appropriate learning with problem-based learning model and analyze whether learning instrument developed can improve student learning outcomes. This development research done on a limited test by using a class by using research methods 4D development. 4D method is used as a method for designing a learning device to the stages define, design, and develope, while disseminate not done for a limited test. The development of learning instrument assessed by a team of experts, small group, and then the field test. Improved learning outcomes using the NGain. The result of the design of the learning device developed by researchers in accordance with input from a team of experts, small groups and field testing of the categories eligible to use. There is an increase in student learning outcomes after using problem-based learning instrument with the N-Gain in the medium category.
THE EFFECT OF THE INQUIRY TRAINING MODEL TOWARDS SCIENCE PROCESS SKILLS OF STUDENTS ON PHYSICS LESSON Hakim, Abdul; ., Aisyah
Jurnal Pendidikan Fisika Vol 5, No 2 (2016)
Publisher : Universitas Negeri Medan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22611/jpf.v5i2.4400

Abstract

This study aimed to know the effect of science process skills of students and activity among the inquiry training and the conventional learning. This research is quasi-experimental study using pre-test and post-test design. The population of the study was students in Medan. Techniques that used to gain a simple is cluster random sampling, the first was grade as experimental class used the inquiry training model and the second was grade as the control class used the conventional learning. The instruments of this study were the science process skills test. The activity, affective, and psychomotor was used observation sheet. The analysis results that the inquiry training was better than that conventional learning in improving the science process skills of students.
EFFECTS OF INQUIRY ON TRAINING AND CRITICAL THINKING PROCESS SKILL SCIENCE PHYSICS Ompusunggu, Tetty; M Turnip, Betty; Sirait, Makmur
Jurnal Pendidikan Fisika Vol 5, No 2 (2016)
Publisher : Universitas Negeri Medan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22611/jpf.v5i2.4406

Abstract

The aims of this research were to analyze the result of student’s Science Process Skills by using Inquiry Training Learning Model, to analyze the result of student’sScience Process Skills who had critical thinking ability above average better than critical thinking ability below average and to analyze the interaction between Inquiry training learning model and critical thinking ability of physics student’s Science Process Skills. This research was a quasi-experimental with two group pretest posttest design and anova design. The sample was conducted by cluster random sampling of two classes, the first class as experiment class with inquiry training Learning Model, and the second class as a control class with Conventional Learning. The research instrument consisted of science process skills test and critical thinking test. Data in this research was analyzed by using two ways Anova. The results of the research showed that student’s Science Process Skills using inquiry training learning model better than conventional learning, student’s Science Process Skills who had critical thinking above average better than critical thinking below average, and there was interaction between Inquiry training learning model and critical thinking to improve physics sudent’s Science Process Skills
THE EFFECTS OF INQUIRY TRAINING MODEL USING MIND MAPPING AND MOTIVATION ON STUDENTS’ SCIENCE PROCESS SKILLS PHYSICS. Fitrah Dwi, Dara; Bangun Harahap, Mara; ., Derlina
Jurnal Pendidikan Fisika Vol 5, No 2 (2016)
Publisher : Universitas Negeri Medan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22611/jpf.v5i2.4401

Abstract

This study aims to analyze, student’s science process skills who are taught by inquiry training learning model using mind mapping is better than the students that taught with conventional learning, science process skills in students who have motivated above average are better compared with students who have the motivation below average, and the interaction between the inquiry training learning model using mind mapping and motivation in improving students science process skills. This research was conducted by quasiexperimental. The sample selection was done by cluster random sampling that were class X2 and X1. The research instrument was using science process skills test in the form of descriptions and tests of motivation in the form of a questionnaire. The data were analyzed by ANOVA two lanes. The results showed that: The ability of students’ physics science process skills using inquiry training learning using mind mapping is better than the ability of students’ science process skills using conventional learning model. The ability of students’ physics science process skills in motivational groups are above average better than the ability of students’ physics science process skills  in conventional groups which are below average, and In this research, motivation above average dominant improves science process skills in Inquiry Training model using mind mapping rather than in conventional learning model
THE INFLUENCE LEARNING MODEL GUIDED INQUIRY AND CREATIVITY ON HIGHER COGNITIVE Wahyuni Rozi Nasution, Sari; Bukit, Nurdin; M. Ginting, Eva
Jurnal Pendidikan Fisika Vol 5, No 2 (2016)
Publisher : Universitas Negeri Medan

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22611/jpf.v5i2.4407

Abstract

The purpose of this research was to know the different between the using of guided inquiry and direct instruction learning models on creativity and students’ physic high cognitive learning result. This research was quasy experimental research by applying two group pretest-postes design with physic high cognitive test and creativity questionairres as the instruments. Data in this research was analyzed by using two ways anova. The results showed that Guided Inquiry learning model is better in improving the cognitive achievement of high student. The research data was taken from the student who is attending a physics lesson from one of the private schools in North Sumatra numbered 68 students. Test hypothesis testing using General Linear Model (GLM) univariate at significance level α = 0.05.

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