Simplified Classical Mechanics, Volume 2 (Second Edition) : Gravity and the Conservation Laws.

Format:

Book

Author/Creator:

DiLisi, Gregory A.

Series:

IOP Ebooks Series

Language:

English

Physical Description:

1 online resource (330 pages)

Edition:

2nd ed.

Place of Publication:

Bristol : Institute of Physics Publishing, 2025.

Summary:

Simplified Classical Mechanics, Second Edition, Volume II, Gravity and the Conservation Laws, explores Newton's Universal Law of Gravitation, Conservation Laws (such as the conservation of energy and the conservation of linear momentum), and the dynamics of rotational motion.

Contents:

Intro

Acknowledgments

Author biography

Gregory Anthony DiLisi

Chapter The universal law of gravitation

1.1 Motivation

1.2 Getting ready

1.2.1 Anticipatory set

1.2.2 Objective

1.2.3 Purpose

1.3 Giving information

1.3.1 Instructional input

1.3.2 Modeling

1.3.3 Instructional input

1.3.4 Modeling

1.3.5 Instructional input

1.3.6 Modeling

1.3.7 Checking for understanding

1.4 Keeping information

1.4.1 Closure

1.4.2 Independent practice

1.4.3 Peer teaching

Chapter The conservation laws

2.1 Motivation

2.2 Getting ready

2.2.1 Anticipatory set

2.2.2 Objective

2.2.3 Purpose

2.3 Giving information

2.3.1 Instructional input

2.3.2 Modeling

2.3.3 Instructional input

2.3.4 Modeling

2.3.5 Instructional input

2.3.6 Modeling

2.3.7 Checking for understanding

2.3.8 Instructional input

2.3.9 Modeling

2.3.10 Checking for understanding

2.4 Keeping information

2.4.1 Closure

2.4.2 Independent practice

2.4.3 Independent practice

2.4.4 Peer teaching

Chapter Rotational motion

3.1 Motivation

3.2 Getting ready

3.2.1 Anticipatory set

3.2.2 Objective

3.2.3 Purpose

3.3 Giving information

3.3.1 Instructional input

3.3.2 Modeling

3.3.3 Checking for understanding

3.3.4 Instructional input

3.3.5 Modeling

3.3.6 Instructional input

3.3.7 Modeling

3.3.8 Checking for understanding

3.3.9 Instructional input

3.3.10 Modeling

3.3.11 Instructional input

3.3.12 Checking for understanding

3.3.13 Modeling

3.4 Keeping information

3.4.1 Closure

3.4.2 Independent practice

Chapter Transition to classical electricity and magnetism

4.1 Motivation

4.2 Getting ready

4.2.1 Anticipatory set

4.2.2 Objective

4.2.3 Purpose

4.3 Giving information

4.3.1 Instructional input.

4.3.2 Modeling

4.3.3 Checking for understanding

4.4 Keeping information

4.4.1 Closure

4.4.2 Independent practice

Chapter

Chapter 1: The universal law of gravitation

Chapter 2: The conservation laws

Chapter 3: Rotational motion

Chapter 4: Transition to classical electricity and magnetism.

Notes:

Description based on publisher supplied metadata and other sources.

ISBN:

0-7503-6400-9

9780750364003