General Methods For Solving Physics Problems | B. S. Belikov
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Author: B. S. Belikov
Added by: mirtitles
Added Date: 2015-12-07
Publication Date: 1989
Language: English
Subjects: physics, problems and solutions, kinematics, laws, general methods, mechanics, rigid body, gravitational field, electric field, magnetic field, electromagnetic field, waves, thermodynamics, kinetic theory, light, first law, second law, boltzmann distribution, maxwell distribution, research problems
Publishers: Mir Publishers, Moscow
Collections: mir-titles, additional collections
Pages Count: 600
PPI Count: 600
PDF Count: 2
Total Size: 133.68 MB
PDF Size: 17.32 MB
Extensions: epub, pdf, gz, html, zip, torrent
Year: 1989
Contributor: Mir Titles
Downloads: 15.51K
Views: 65.51
Total Files: 18
Media Type: texts
Description
In this post we will see another book in the Problems and Solutions book, namely, General Methods for Solving Physics Problems by B. S. Belikov
About
This book attempts to create systematic use of generalised methods , general methodological principles, and very general concepts in a segment of students instruction of vital importance, the solution of physics problems. The approach is based on the application of the most general concepts of physics to the solution of any problem. I consider the theoretical aspects underlying the general approach to problem solution and methods for solving standard, non-standard, non-specific, and general problems.
The book was translated from the Russian by Eugene Yankovsky and was first published by Mir in 1989.
The book has three parts
Part 1: The Theoretical Bases of the General Approach to Solving Any Physics Problem
Chapter 1: The System of Fundamental Concepts of Physics
1 Some General Concepts of Physics
2 Idealization of a Physics Problem
3 Classification of Physics Problems
Chapter 2: Some General Methods for Solving Physics Problems
4 Stages in Solving a Formulated Problem
5 Method of Analysing the Physical Content of a Problem
6 General-Particular Methods. The DI Method
7 The Simplification and Complication Method. The Estimate Method
8 The Problem Statement Method
9 Another Classification of Formulated Problems
Part 2: Solution of Standard Problems
Chapter 3: The motion of a particle
10 Particle Kinematics
11 Particle Dynamics
12 Mechanical Oscillations
13 Conservation Laws
Chapter 4: The motion of a rigid body
14 Rigid Body Dynamics
15 Conservation Laws in rigid body Dynamics
Chapter 5: The Gravitational Field
16 The Basic Problem of Gravitational Theory
17 The Gravitational Field Generated by a system of particles
18 The Gravitational Field Generated by an arbitrary Mass Distribution
Chapter 6: The Electric Field
19 The Electrostatic Field in Vacuum
20 The Electrostatic Field in Insulators
21 Conductors in Electrostatic Field
22 Direct Current
Chapter 7: The Magnetic Field
23 The Magnetic Field in a Vacuum
24 The Magnetic Field in Matter
Chapter 8: The Electromagnetic Field
25 Electromagnetic Induction and Self-Induction
26 Electromagnetic Oscillations
Chapter 9: Electromagnetic Waves
27 Interference of Light
28 Diffraction of Light
Chapter 10: Thermodynamics
29 The First Law of Thermodynamics
30 The Second Law of Theormodynamics
Chapter 11: Kinetic Theory
31 The Maxwell-Boltzmann Distribution
32 The Boltzmann Distribution
Part 3: Solution of Nonstandard, Nonspecified and Arbitrary problems
Chapter 12: Non-standard and Original Problems
33 Non-standard Problems
34 Original Problems
Chapter 13: Nonspecified, Research and Arbitrary Problems
35 Nonspecified Problems
36 Research Problems
37 Arbitrary Problems
Conclusion
