Understanding of Science Literacy for Prospective Physics Teachers of the Physics Education Program

This study was carried out to determine teacher views on the use of technology to improve physics education in high schools. The sample of the study is 238 volunteer physics teachers. The study was carried out with the survey model and a five point Likert Scale was used in the study. The scale has a reliability coefficient of 0.92. Descriptive and inferential statistical techniques were used to analyze the data obtained from the scale. According to the results of the analysis, it was determined that teachers strongly agreed with all six of the articles except one of the views within the dimension "suggestions on teacher competence and technology-based subject discourse" and with only one out of the five articles within the dimension "recommendations for performing technology-assisted laboratory activities." In addition, it has been determined that significant change in teachers’ views did not occur regarding the use of technology to improve physics education according to different individual characteristics. However, it has been determined that there is a significant positive difference with those in high need of professional development.

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Preservice Physics Teachers’ Development of Physics Identities: the Role of Multiple Representations

Research in Science Education ◽

10.1007/s11165-021-10019-5 ◽

2021 ◽

Author(s):

Nuril Munfaridah ◽

Lucy Avraamidou ◽

Martin Goedhart

Keyword(s):

Instructional Practices ◽

Physics Education ◽

Multiple Representations ◽

Instructional Approach ◽

Multiple Representation ◽

Physics Teachers ◽

Physics Courses ◽

Before And After ◽

Post Test ◽

Based Instruction

AbstractIdentity-based research in physics education has been receiving increased attention in the past few years given the potential of identity in producing novel insights into the ways’ students engage in physics. In this study, we examined the development of preservice physics teachers’ physics identity through a specific instructional practice: a specially designed course incorporating the use of the multiple representations. Although specific programs and instructional practices have been found to influence the development of physics identity, there is no clear evidence about the kinds of instructional practices that might support its development. To examine the influence of multiple representations on each component of physics identity, we designed and implemented a physics course that used a multiple representation (MR)-based instructional approach with a group of 61 preservice physics teachers at a public university in Indonesia. Data were collected with a pre- and post-questionnaire on physics identity, a conceptual understanding test, and a post-test that examined differences between identity components before and after the course, conceptual understandings, as well as the participants’ views about the use of the MR-based instructional approach. The findings revealed a significant improvement of two components of physics identity, namely, competence and interest, and point to the potential of MR-based instruction in physics courses.

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Analysis of Student’s Difficulties in Solving Physics Problem: Impulse and Momentum Topics

Unnes Science Education Journal ◽

10.15294/usej.v10i1.41517 ◽

2021 ◽

Vol 10 (1) ◽

pp. 24-33

Author(s):

Tri Adianto ◽

Muhammad Aqil Rusli

Keyword(s):

Learning Strategies ◽

Physics Education ◽

Mathematical Skills ◽

Problem Solving Skills ◽

Physics Learning ◽

Physics Teachers ◽

Data Collection Process ◽

Mathematical Difficulties ◽

Mathematical Operations ◽

Physics Problems

Physics education essentially intends to cultivate student’s analytical and reasoning capabilities. However, this objective is hard to achieve because there are many students who facing difficulties in solving physics problems. This research was conducted to identify the types of student’s difficulties in solving momentum and impulse problems, along with the factors causing it. This research was conducted using a descriptive qualitative approach to 66 students of Senior High School 2 Makassar who had studied momentum and impulse topics. The data collection process was carried out using test and interviews. Based on the results, it can be identified that there are two types of student’s difficulties in solving momentum and impulse problems. The first type was physical difficulties which consisted of student’s difficulty in understanding the questions (26%) and student’s difficulty in determining the useable equations (25%). Then, the second type was mathematical difficulties which consisted of student’s difficulty in substituting the data to the equation (63%) and student’s difficulty in performing mathematical operations (76%). Based on interviews and analysis, it can be concluded that these difficulties was commonly faced by students while solving physics problems, including in momentum and impulse topic. Futhermore, the difiiculties were caused by several factors, namely: 1) the lack of student’s understanding about physics concepts, 2) the weakness of student’s mathematical skills, 3) the lack of physics learning process which is not honing student’s problem-solving skills and 4) the lack of student’s motivation on developing their problems solving skills in physics subjects. Thus, researchers recommend to all physics teachers in Indonesia to immediately develop or implement learning strategies or methods which are considered capable of overcome all student’s difficulties that have been found.

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Physics Teachers' Perception of IT Convergence-based Physics Education

New Physics Sae Mulli ◽

10.3938/npsm.70.660 ◽

2020 ◽

Vol 70 (8) ◽

pp. 660-666

Author(s):

Wonkun OH*

Keyword(s):

Physics Education ◽

Physics Teachers ◽

It Convergence

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The AMS Education Program: 25 Years of Promoting Earth System Science Literacy

Bulletin of the American Meteorological Society ◽

10.1175/bams-dec15-2203.1 ◽

2015 ◽

Vol 96 (12) ◽

pp. 2202-2203

Author(s):

James A. Brey ◽

Elizabeth W. Mills ◽

Ira W. Geer ◽

Robert S. Weinbeck ◽

Kira A. Nugnes ◽

...

Keyword(s):

Education Program ◽

Science Literacy ◽

Earth System ◽

Earth System Science ◽

System Science

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What the Public Thinks and Knows About Science—and Why It Matters

10.1093/oxfordhb/9780190497620.013.6 ◽

2017 ◽

Author(s):

William K. Hallman

Keyword(s):

Decision Making ◽

Science Literacy ◽

Public Understanding Of Science ◽

Public Understanding ◽

Scientific Methods ◽

The Public ◽

Civic Discourse ◽

Scientific Institutions ◽

Understanding Of Science ◽

Over Time

Modern conceptions of science literacy include knowledge of science facts; a grasp of scientific methods, norms, and practices; awareness of current discoveries and controversies involving science and refinement of the ability to comprehend and evaluate their implications; the capability to assess the priorities and actions of scientific institutions; and the capacity to engage in civic discourse and decision-making with regard to specific issues involving science. Advocates of increased science literacy maintain that widespread public understanding of science benefits individuals, culture, society, the economy, the nation, democracy, and science itself. This chapter argues that the relatively crude measures currently employed to assess science literacy are insufficient to demonstrate these outcomes. It is difficult to know whether these benefits are real and are independent of greater levels of education. Existing measures should be supplanted by multidimensional scales that are parsimonious, easy to administer, reliable, and valid over time and across cultures.

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