scholarly journals Validity of handout development of physics education statistics course using a cooperative problem solving (CPS) model

2020 ◽  
Vol 1481 ◽  
pp. 012108
Author(s):  
Wahyuni Satria Dewi ◽  
Renol Afrizon
Keyword(s):  
Problem Solving ◽  
Physics Education ◽  
Cooperative Problem Solving ◽  
Statistics Course ◽  
Education Statistics ◽  
Cps Model

scholarly journals Kepraktisan Bahan Ajar Statistika Pendidikan Fisika Bermuatan Model Cooperative Problem Solving

2019 ◽  
Vol 3 (1) ◽  
pp. 26
Author(s):  
Renol Afrizon ◽  
Wahyuni Satria Dewi
Keyword(s):  
Problem Solving ◽  
Physics Education ◽  
Ease Of Use ◽  
Student Response ◽  
Teaching Materials ◽  
Cooperative Problem Solving ◽  
Problem Solving Model ◽  
Education Statistics ◽  
Addie Model ◽  
Level Of Thinking

The statistics of physics education are compulsory course with a lot of material descriptions so the lectures must be assisted by the use of teaching materials. The lectures of statistics of physics education that took place in the July-December 2017 semester illustrates that: 1) teaching materials are less attractive to students, 2) the assignments given are quite clear and sufficient in accordance with the level of thinking of students, 3) materials delivered by the lecturer is in accordance with the targets in the syllabus with some material is still abstract, 4) the lecture have been pursued in accordance with the syllabus but the methods used have not varied and 5) students learn material of statistic of physics education only from the lecturer explanation so that only a few students can answer statistical problems quickly and correctly. This indicates that it is need provided teaching materials with a cooperative problem solving model. The author has tried to design teaching materials of statistic of physics education with cooperative problem solving models with very valid criteria according to the assessment of six experts with educational qualifications of statistics and physics education. However, this teaching material has not been tested at normal conditions in the lectures so that the level of practicality has not been revealed. The aim of this study was to determine the practicality level of educational statistical teaching materials containing cooperative problem solving models according to users, namely lecturers and students who listed in the course. Type of research is research and devel-opment with the ADDIE model. The ADDIE model stands for Analyze, Design, Develop, Implement and Evaluation. This research is part of the Implementation stage where development products are implemented in real terms so that the level of practicality can be measured with indicators of ease of use, attractiveness and efficiency. Data collection used student response questionnaires and lecturer response questionnaires with a Likert scale. Data analysis used descriptive statistic analysis techniques. The results showed that teaching materials of physics education statistics had very practical criteria (lecturers opinion) and practical (students opinion). The conclusion of this study is the teaching materials of statistic of physics education with cooperative problem solving model has been practically used in lectures

scholarly journals Remediasi Miskonsepsi Mahasiswa Calon Guru Fisika Pada Materi Mekanika Melalui Penerapan Model pembelajaran Inkuiri dan Creative Problem Solving

2020 ◽  
Author(s):  
Iqbal Nurhidayat ◽  
Nana
Keyword(s):  
Problem Solving ◽  
Physics Education ◽  
Creative Problem Solving ◽  
Literature Study ◽  
Education Students ◽  
Problem Solving Model ◽  
Creative Problem ◽  
Cps Model

: This research was conducted to identify misconceptions of students of Physics education related to the material "Mechanics" by applying the Inquiry model and Creative Problem Solving (CPS) model. The research was conducted by using the literature study method. In line with this, this research was conducted on students majoring in Physics education. This study aims to (1) determine the level of misconceptions that occur in students of the Department of Physics Education (2) determine the effectiveness of the Creative Problem Solving Model to reduce the level of misconceptions that occur in physics education students

scholarly journals Analisis Kondisi Awal Perkuliahan Mahasiswa Pendidikan Fisika Dalam Rangka Mengembangkan Bahan Ajar Statistika Pendidikan Fisika Menggunakan Model Problem Solving

2018 ◽  
Vol 2 (1) ◽  
pp. 93 ◽  
Author(s):  
Wahyuni Satria Dewi ◽  
Renol Afrizon
Keyword(s):  
Problem Solving ◽  
Physics Education ◽  
Early Stage ◽  
Teaching Materials ◽  
Analysis Technique ◽  
Problem Solving Model ◽  
Education Statistics ◽  
Statistical Problems ◽  
Materials Used ◽  
Addie Model

This research is important as a solution to the problems faced by most students in the Physics Education Statistics course. The problem in this study is that students have not been able to solve the statistical problems correctly, becausetheir ability in solving the statistical problems given by lecturers in the class is low. This is also caused by abstract and difficult material to understand by students. In addition, the source books used in lectures are only in the form of a reference books and have not been oriented to problem-solving steps related to daily life such as educational issues. This study aims to analyze the needs in developing teaching materials of Physics Education Statistics with Problem Solving model. This research is an early stage of research and development using ADDIE model in the form of analysis phase. Data collected by using questionnaire given to physics education students listed on semester July-December 2017. Data analysis technique used in the form of descriptive statistical analysis. The results show several things; 1) The teaching materials used by the lecturers in the course have not been entirely appealing for the students to be reviewed independently, 2) the task that has been given by the lecturer are able to motivate the students to solve it, 3) lecturers have provided guidance to students in solving problems, but not yet using varied method, 4) the material presented in the lecture has not been fully understood by the students, as some of the material is still abstract, 5) Only a small percentage of students can answer statistical problems quickly and correctly, 6) Students have enough basic math skills, but only some students can use the statistical formula correctly, and 7) Students who are able to correctly depict distribution and graphic curves are sufficient. The conclusion of this study is the need of development of teaching materials Statistics of Physics Education using problem solving model.

The Back Page: My Favorite Lesson – The Purple Milk Problem

2012 ◽  
Vol 105 (7) ◽  
pp. 560
Author(s):  
Kasi C. Allen
Keyword(s):  
Problem Solving ◽  
Cooperative Problem Solving

In this favorite lesson, students must engage in cooperative problem solving and think outside the algebra box as they work to make sense of the Purple Milk problem.

scholarly journals MEASURING STUDENTS’ PROBLEM-SOLVING SKILLS ON DIRECT CURRENT CIRCUITS WITH MULTIPLE REPRESENTATIONS

2020 ◽  
Vol 8 (3) ◽  
pp. 725-736
Author(s):  
Maria Dewati ◽  
A. Suparmi ◽  
Widha Sunarno ◽  
Sukarmin ◽  
C. Cari
Keyword(s):  
Problem Solving ◽  
Physics Education ◽  
Multiple Choice ◽  
Multiple Representations ◽  
Assessment Instruments ◽  
Multiple Choice Questions ◽  
Multiple Representation ◽  
Problem Solving Skills ◽  
Electrical Circuits ◽  
Physics Problems

Purpose of study: This study aims to measure the level of students' problem-solving skills, using assessment instruments in the form of multiple-choice tests based on the multiple representation approach on DC electrical circuits. Methodology: This research is a quantitative descriptive involving 46 students of physics education. Students are asked to solve the problem of DC electrical circuits on 12 multiple choice questions with open reasons, involving verbal, mathematical, and picture representations. Data were analyzed by determining means and standard deviations. Main findings: The results of the study showed that there were 3 levels of students' problem-solving skills, namely 7 (15%) students in the high category, 22 (48%) students in the medium category and 17 (37%) students in the low category. Applications of this study: The implication of this research is to continuously develop assessment instruments based on multiple representations in the form of various types of tests, to help students improve their conceptual understanding, so students can solve physics problems correctly. The novelty of this study: Researchers explain the right way to solve physics problems, 1) students are trained to focus on identifying problems, 2) students are accustomed to planning solutions using a clear approach, to build an understanding of concepts, 3) students are directed to solve problems accordingly with understanding the concepts they have built.

scholarly journals Student’s concept ability of Newton’s law based on verbal and visual test

2017 ◽  
Vol 1 (2) ◽  
pp. 162
Author(s):  
N. D. Setyani ◽  
Cari Cari ◽  
Suparmi Suparmi ◽  
J. Handhika
Keyword(s):  
Problem Solving ◽  
Physics Education ◽  
Visual Test ◽  
Conceptual Problem ◽  
Incorrect Answer ◽  
Newton's Law ◽  
Newton’S Law ◽  
Newton’S Laws

<p class="Abstract">Newton’s law is a foundamental concept that needs to be studied and understood correctly. Concept presentation in different representation will help the student to understand the concept that being learned. Student’s ability to present Newton’s law in different representation indicate the quality of student’s concept ability. This research aims to describe student’s concept ability of Newton’s laws based on the student’s ability of verbal and visual (pictorial and graphical) problem solving. The method of this research  is qualitative with the sample of 71 students of physics education from IKIP PGRI Madiun (14 students) and Sebelas Maret University (57 students). The instrument used in this research were conceptual test and  interview. The result showed that more student provide incorrect answer to the physics conceptual problem. Percentage of the incorrect answer for First Newton’s law problem is 69 %, Second Newton’s law problem is 71 %, and Third Newton’s law problem is 76 %. The  students do not understand the language of physics correctly, they undergo incorrect physics concept, and so they only understand few physics concept of Newton’s law.</p>

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