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Cases on Models and Methods for STEAM Education [Kõva köide]

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  • Formaat: Hardback, 360 pages, kõrgus x laius: 254x178 mm, kaal: 633 g
  • Ilmumisaeg: 27-Sep-2019
  • Kirjastus: IGI Global
  • ISBN-10: 1522596313
  • ISBN-13: 9781522596318
Teised raamatud teemal:
Cases on Models and Methods for STEAM EducationSuurem pilt
  • Formaat: Hardback, 360 pages, kõrgus x laius: 254x178 mm, kaal: 633 g
  • Ilmumisaeg: 27-Sep-2019
  • Kirjastus: IGI Global
  • ISBN-10: 1522596313
  • ISBN-13: 9781522596318
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9781522596318.html
Märksõnad:
STEAM education can be described in two ways. One model emphasizes the arts and is not as concerned about the accuracy of the STEM fields. In the second model, STEM content is the prevailing force with a focus on accuracy, and the arts are used in limited and secondary resources for the teaching of the content. However, in order to promote creative thinking, allow for higher student engagement, and offer a more well-rounded education, a STEAM model, where science, technology, engineering, arts, and mathematics are equal contributors to the process of learning, is needed.

Cases on Models and Methods for STEAM Education is an important scholarly resource that provides inclusive models and case studies highlighting best techniques and practices for implementing STEAM models in teaching and assists teachers as they learn to use such methods through the inclusion of practical activities for use in the classroom. Highlighting a wide range of topics such as science education, fine arts, and teaching models, this book is essential for educators, administrators, curriculum developers, instructional designers, policymakers, academicians, researchers, and students.
Detailed Table of Contents
Preface xvi
Acknowledgment xvii
Introduction xviii
Section 1
Chapter 1 Musing on Unanswered Questions
1(21)
Meta Van Sickle
Merrie Koester
Section 2 Art Practice
Chapter 2 Graphic Novels and STEAM: Strategies and Texts for Utilization in STEAM Education -- Graphic Novels and STEAM
22(18)
Alex Romagnoli
Chapter 3 High-Quality Trade Books and Content Areas: Planning Accordingly for Rich Instruction
40(15)
Carolyn A. Groff
Chapter 4 Theater as the STEAM Engine for Engaging Those Previously Disengaged
55(37)
Paul C. Jablon
Chapter 5 Exploring Simple Machines With Creative Movement
92(30)
William Paul Lindquist
Martha James-Hassan
Nathan C. Lindquist
Chapter 6 Getting to "Know" STEAM
122(32)
Merrie Koester
Section 3 Theme-Based
Chapter 7 Tower Design, Build and Test as a STEAM Project: Tower Design, Build, and Test
154(16)
Judith Bazler
Chapter 8 The Great Race: Using Air to Move Paper Airplanes and Balloon Rockets
170(35)
Jena Valdiviezo
Letitia Graybill
Chapter 9 Bee Pollination
205(19)
Kerry Carley Rizzuto
John Henning
Catherine Duckett
Chapter 10 Cases on STEAM Education in Practice Catapults and History of Catapults
224(20)
Warren James DiBiase
Judith R. McDonald
Kellan Strong
Chapter 11 A Mathematical Approach to Designing Insulators
244(14)
Kathryn Electa Pedings-Behling
Chapter 12 Engineering and Art: Putting the EA in STEAM
258(16)
Sara B. Smith
Chapter 13 Developing and Applying the Law of Cosines: Using Star Maps as a Context
274(15)
Vecihi S. Zambak
Budi Mulyono
Chapter 14 Using STEAM in Marine Science: Incorporating Graphic Design Into an Existing STEM Lesson
289(26)
Callie (Van Koughnett) Dollahon
Chapter 15 "Imagioneering" a New Mission: Space
315(13)
Kyle Seiverd
Section 4 Differentiating Instruction
Chapter 16 Differentiating Instruction in the Forensics Classroom
328(16)
Tracy L. Mulvaney
Kathryn Lubniewski
Conclusion 344(2)
Compilation of References 346(24)
About the Contributors 370(6)
Index 376
Judith Bazler is a science educator at Monmouth University, Long Branch, NJ. Meta Van Sickle , Ph.D., is a Full Professor at the College of Charleston. A teacher with over 20 years of experience, Meta earned her Ph.D. in Science Education at the University of South Florida. Her two most recent IGI Global publications are about teacher education candidates who are gifted and talented. The first book chapter reviews the history of gifted and talented teaching through the science and mathematics education policies and practices. The second book chapter is a cross analysis of gifted and talented teacher education candidates.