scholarly journals Theoretical Investigation on Implications of 'Community of Inquiry' for Science Education: Toward 'Community of Inquiry in Science Classroom'

2014 ◽  
Vol 34 (3) ◽  
pp. 303-319 ◽  
Author(s):  
Yong Jae Joung
Keyword(s):  
Science Education ◽  
Theoretical Investigation ◽  
Community Of Inquiry ◽  
Science Classroom

scholarly journals Promoting Societal-Oriented Communication and Decision Making Skills by Learning about Advertising in Science Education

2014 ◽  
Vol 4 (1) ◽  
pp. 31-49
Author(s):  
Nadja Belova ◽  
Ingo Eilks
Keyword(s):  
Decision Making ◽  
Science Education ◽  
Science Classroom ◽  
Science And Technology ◽  
School Context ◽  
Consumer Learning ◽  
Factual Information ◽  
Specific Language ◽  
Everyday Lives

In our everyday lives we are surrounded by advertising in its various forms. Thus in the school context it is not surprising that the issue of advertising is addressed by different subjects, with the main foci being advertising-specific language, images and illustrations, use of stereotypes, strategies of persuasion etc. But advertising also contains factual information, being explicit or implicit, to make a campaign more credible and underline the effectiveness of a certain product. Dealing with the use of factual information in advertising critically is important for the consumer. For many products this information is derived from science and technology. Understanding the science in and behind advertising is necessary to become a critical consumer. Learning about the use of science in advertising also allows promoting societal-oriented communication and decision making skills in the science classroom. Unfortunately, only a few examples on the use of advertising in the science classroom exist. This paper provides a justification for the use of advertising in science education. Examples from the classroom developed in the framework of the PROFILES-project are provided by way of illustration.

Next Generation Science Assessment

2013 ◽  
pp. 247-264
Author(s):  
Edward G. Lyon
Keyword(s):  
Science Education ◽  
Education Reform ◽  
Classroom Practice ◽  
Scientific Reasoning ◽  
Teacher Educators ◽  
Science Classroom ◽  
National Research Council ◽  
High School Science ◽  
Science Assessment ◽  
Assessment Research

The recent release of science education documents such as A Framework for K-12 Science Education: Practices, Crosscutting Concepts, and Core Ideas (National Research Council, 2012) marks the transition into a new generation of science education. This transition necessitates a close look at how pre-college science teachers will assess a diverse group of students in ways that are consistent with science education reform. In this chapter, the authors identify current research in science assessment and employ assessment coherence, assessment use, and assessment equity as guiding principles to address the challenges of putting science assessment research into classroom practice. To exemplify these challenges, they describe a study where a research instrument designed to measure scientific reasoning skills was translated into a high school science classroom assessment. The goal of this chapter is to stimulate conversation in the science education community (researchers, assessment developers, teacher educators, administrators, and classroom teachers) about how to put science assessment research successfully into practice and to describe what next steps need to be taken, particularly around assessing diverse student populations.

Next Generation Science Assessment

2013 ◽  
pp. 1615-1633
Author(s):  
Edward G. Lyon
Keyword(s):  
Science Education ◽  
Education Reform ◽  
Classroom Practice ◽  
Scientific Reasoning ◽  
Teacher Educators ◽  
Science Classroom ◽  
National Research Council ◽  
High School Science ◽  
Science Assessment ◽  
Assessment Research

The recent release of science education documents such as A Framework for K-12 Science Education: Practices, Crosscutting Concepts, and Core Ideas (National Research Council, 2012) marks the transition into a new generation of science education. This transition necessitates a close look at how pre-college science teachers will assess a diverse group of students in ways that are consistent with science education reform. In this chapter, the authors identify current research in science assessment and employ assessment coherence, assessment use, and assessment equity as guiding principles to address the challenges of putting science assessment research into classroom practice. To exemplify these challenges, they describe a study where a research instrument designed to measure scientific reasoning skills was translated into a high school science classroom assessment. The goal of this chapter is to stimulate conversation in the science education community (researchers, assessment developers, teacher educators, administrators, and classroom teachers) about how to put science assessment research successfully into practice and to describe what next steps need to be taken, particularly around assessing diverse student populations.

3D Multi-User Virtual Environments in Science Education

2015 ◽  
pp. 302-324 ◽  
Author(s):  
Yufeng Qian
Keyword(s):  
Science Education ◽  
Science Curriculum ◽  
Science Classroom ◽  
Future Research ◽  
Instructional Technologies ◽  
Inquiry Based Learning ◽  
Technological Complexity ◽  
Valid Assessment ◽  
Future Research Directions ◽  
Racial Achievement

The purpose of this chapter is to identify the potential and challenges in science education in the use of 3D MUVE science programs. These programs offer a number of instructional benefits in motivating and engaging students and in improving their science learning and scientific inquiry. 3D MUVE is a promising media in narrowing gender and racial achievement gaps and enabling an authentic and valid assessment of science education. Like all new instructional technologies, however, the wide use and implementation of 3D MUVE technology in mainstream science classroom is still facing a number of challenges, which are mainly related to technological complexity and cost, and design difficulty in incorporating some elements critical to inquiry-based learning into the 3D MUVE environment. To overcome these identified challenges and make optimal use of the opportunities, suggestions for integrating 3D MUVE into science curriculum and classroom are made and discussed, along with future research directions.

3D Multi-User Virtual Environments in Science Education

2015 ◽  
pp. 841-863
Author(s):  
Yufeng Qian
Keyword(s):  
Science Education ◽  
Science Curriculum ◽  
Science Classroom ◽  
Future Research ◽  
Instructional Technologies ◽  
Inquiry Based Learning ◽  
Technological Complexity ◽  
Valid Assessment ◽  
Future Research Directions ◽  
Racial Achievement

The purpose of this chapter is to identify the potential and challenges in science education in the use of 3D MUVE science programs. These programs offer a number of instructional benefits in motivating and engaging students and in improving their science learning and scientific inquiry. 3D MUVE is a promising media in narrowing gender and racial achievement gaps and enabling an authentic and valid assessment of science education. Like all new instructional technologies, however, the wide use and implementation of 3D MUVE technology in mainstream science classroom is still facing a number of challenges, which are mainly related to technological complexity and cost, and design difficulty in incorporating some elements critical to inquiry-based learning into the 3D MUVE environment. To overcome these identified challenges and make optimal use of the opportunities, suggestions for integrating 3D MUVE into science curriculum and classroom are made and discussed, along with future research directions.

scholarly journals EduSciFIT: A Computer-Based Blended and Scaffolding Toolbox to Support Numerical Concepts for Flipped Science Education

2019 ◽  
Vol 9 (2) ◽  
pp. 116 ◽  
Author(s):  
David González-Gómez ◽  
Jin Su Jeong
Keyword(s):  
Science Education ◽  
Science Learning ◽  
Science Classroom ◽  
Science Laboratory ◽  
Positive Perception ◽  
Science Classrooms ◽  
E Learning ◽  
Computer Based ◽  
Positive Results ◽  
Scaffolding Learning

In education, the use of information, computers, and the Internet as a form of blended technology has been receiving increased attention and consideration. Additionally, increasing attention is being paid toward a scaffolding mechanism that can be integrated into science classrooms in order to solve technological challenges. This work describes a computer-based blended and scaffolding learning toolbox to support numerical concepts for flipped science education, particularly one which is developed and implemented in a MATLAB environment and framed in Adobe Captivate 6 as a HTML5-based e-Learning application, which can be used for science laboratory exercises. This toolbox, named SciEduFIT, is one of the blended and scaffolding learning systems available for use in science education. Through this toolbox, students can acquire the skills to establish the numerical concepts in a flipped science classroom. A survey was conducted to measure the suitability of the proposed toolbox, specifically A to E screens of SciEduFIT. The positive results of the survey indicate that this novel toolbox should be introduced into science classrooms in order to supplement other existing tools currently in use in the area of flipped science education. Therefore, the research shows a general positive perception of the toolbox and highlights the feasibility of the toolbox to achieve significant science learning.

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