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Becoming a Better Science Teacher: 8 Steps to High Quality Instruction and Student Achievement [Kõva köide]

3.50/5 (2 hinnangut Goodreads-ist)
  • Formaat: Hardback, 216 pages, kõrgus x laius: 279x215 mm, kaal: 740 g
  • Ilmumisaeg: 17-Aug-2006
  • Kirjastus: Corwin Press Inc
  • ISBN-10: 1412926602
  • ISBN-13: 9781412926607
Teised raamatud teemal:
Becoming a Better Science Teacher: 8 Steps to High Quality Instruction and Student AchievementSuurem pilt
  • Formaat: Hardback, 216 pages, kõrgus x laius: 279x215 mm, kaal: 740 g
  • Ilmumisaeg: 17-Aug-2006
  • Kirjastus: Corwin Press Inc
  • ISBN-10: 1412926602
  • ISBN-13: 9781412926607
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9781412926607.html
Märksõnad:
"A very exciting and user-friendly text, dealing with standards and making practical connections to assessment and teaching, and with excellent examples throughout." -Gary Willhite, Teacher Educator Southern Illinois University

Create a new vision for high quality science teaching!

In todays standards-based educational climate, teachers are challenged to create meaningful learning experiences while meeting specific goals and accountability targets. In her essential new book, Elizabeth Hammerman brings more than 20 years as a science educator and consultant to help teachers connect all of the critical elements of first-rate curriculum and instruction.

With this simple, straight-on guide, teachers can analyze their existing curriculum and instruction against a rubric of indicators of critical characteristics, related standards, concept development, and teaching strategies to develop students scientific literacy at the highest levels. Every chapter is packed with charts, sample lesson ideas, reflection and discussion prompts, and more, to help teachers expand their capacity for success.

Hammerman describes what exceptional teaching looks like in the classroom and provides practical, teacher-friendly strategies to make it happen. This research-based resource will help teachers:





Reinforce understanding of standards-based concepts and inquiry Add new content, methods, and strategies for instruction and assessment Create rich learning environments Maximize instructional time Ask probing questions and sharpen discussion Include technology Gather classroom evidence of student achievement to inform instruction

Through a new, clear vision for high quality science teaching, this book gives teachers everything they need to deliver meaningful science instruction and ensure student success and achievement. 

Arvustused

"The major strengths of this book are dealing with standards and making practical connections to assessment and teaching, and the excellent examples throughout and their practicality. A very exciting and user-friendly text." -- Gary Willhite, Teacher Educator "What a treasure! The contents will change the way teachers teach and students learn. This book is a tour de force, a must-read for every educator!" -- Marian White-Hood, Principal "This text is especially strong in the clear, solid approach toward developing high-quality science instruction. It does an exceptional job of relating this step-by-step approach to educational research on science pedagogy." -- Diann Musial, Distinguished Teaching Professor "Gives teachers everything they need to deliver meaningful science instruction and ensure student success and achievement." -- SirReadaLot.org, August 2006 "Hammermans recommendations and instructional supports complement current teaching practices across disciplines and grade levels." -- Curriculum Connections, Spring 2007

Foreword ix
Dave Youngs
Preface xi
Professional Development for Learning and Change xi
Uses for Becoming a Better Science Teacher xii
Overview of
Chapters		 xiii
Using an I.D.E.A. Approach to Metacognition xvi
Acknowledgments xvii
Introduction xix
Changing Perspectives and New Approaches xix
About the Author xxi
PART I: CREATING A VISION FOR SUCCESSFUL SCIENCE
1(38)
On the Shoulders of Giants
3(24)
Defining the Goal: Scientific Literacy
3(4)
Understanding Science and How Scientists Work
7(1)
Scientific Discoveries
8(4)
Scientists as Problem Solvers
12(6)
The Scientific Enterprise
18(9)
Defining High Quality Science Teaching
27(12)
Examining Beliefs and Practices
27(3)
Defining High Quality Curriculum and Instruction: What Research Says
30(2)
Indicators of High Quality Teaching
32(1)
Pedagogical Content Knowledge for Success
33(1)
A Framework for Instructional Materials
33(3)
Action Plans
36(3)
PART II: GIANT STEPS TO HIGH QUALITY TEACHING
39(142)
The Role of Science Standards
41(18)
Understanding Standards
42(1)
Identifying and Unpacking Power Standards
43(2)
Concepts, Skills, and Dispositions in a Science Framework
45(4)
Concepts and Principles
49(1)
Standards Inform Instruction
49(3)
A Planning Guide for Instruction
52(3)
Interdisciplinary Units
55(1)
Designing an Interdisciplinary Unit
55(1)
Process Skills and Dispositions
55(4)
Creating a Context for Meaningful Learning
59(16)
An Introduction to Context
59(1)
Context as a Function of Interest and Awareness of Purpose
60(1)
Context and Intellectual Diversity
61(4)
Context Embracing Brain-Based Learning
65(1)
Emotional Intelligence and Learning
66(2)
Context and Cultural Diversity
68(1)
Science in Multicultural Contexts
69(6)
Methods, Strategies, and Best Practices for High Quality Instruction
75(40)
The Role of Methods in Unit Development
76(3)
Teacher's Role in Inquiry
79(1)
Direct Instruction Versus Inquiry-Based Instruction
79(2)
High Quality Lesson Planning
81(3)
Strategies for Student Engagement
84(1)
Strategies to Enhance Inquiry
84(3)
Creative Engagement, Involvement, and Assessment
87(4)
Varying Strategies for Diverse Learners
91(1)
Best Practices in Science Education
91(24)
Tools for Thinking and Meaning
115(12)
Questions
116(3)
Graphic Organizers
119(3)
Science, Technology, and Society
122(1)
Notebooks
123(4)
Assessments to Guide Instruction
127(12)
Assessments as Tools for Learning
127(2)
Designing Assessments
129(3)
Task and Performance Assessments
132(3)
Summative Performance Assessments
135(4)
Safe, Supportive, and Challenging Environments for Learning
139(14)
Considerations for Learning Environments
140(3)
Classroom Safety
143(1)
Resources
143(1)
Internet Resources
144(1)
Classroom Management
145(3)
Management in Informal Settings
148(3)
Creative Classrooms
151(2)
Eight Steps to High Quality Instruction and Student Achievement
153(28)
Example 1: Applying the Eight Steps to a Unit on Plants
154(13)
Example 2: Applying the Eight Steps to a Unit on Rocks and Minerals
167(14)
References 181(4)
Index 185


Elizabeth Hammerman is a dedicated science educator and consultant. Her professional background includes teaching science at the middle school and high school levels and over 20 years of experience teaching university science education courses and co-directing funded grant projects. She has done extensive professional development with teachers in the field, specializing in curriculum development and implementation, performance assessment, and effective teaching and learning. The need for high-quality professional development programs and materials in science education became apparent throughout the many projects and professional relationships with teachers who were eager to increase their knowledge base, skills, and confidence for teaching science more effectively.

Hammerman has co-authored a book on performance assessment in science and authored a database of science assessment tasks. She has published articles, presented programs at national conferences, consulted nationally, and developed curriculum and assessments for cutting-edge school districts and commercial products.

Since relocating to North Carolina in 1999, Hammerman has been a math/science consultant for a consortium of seven county school systems, has taught undergraduate and graduate courses in teacher education and science education, served as director of education and professional development for Virtual Learning Systems, and worked as a consultant for the North Carolina Department of Public Instruction. She is actively involved in professional development and continues to work on a series of professional development books for science education for Corwin Press.