KITTEL, CHARLES KNIGHT, WALTER D. RUDERMAN, MALVIN A. HELMHOLZ, CARL A MOYER BURTON J.
MECHANICS IN SI UNITS: BERKELEY PHYSICS COURSE VOLUME 1 - 2nd Ed. - NEW DELHI TATA Mc GRAW HILL EDUCATION 2011 - 451p.
https://www.mheducation.co.in/mechanics-in-si-units-berkeley-physics-course-vol-1-9780070702134-india
This classic text is widely considered to be the best overall introductory text book on the subject . It has a complete and integrated coverage suitable for someone who wants to understand the underlying concepts of the subject.
1. Introduction
2. Vectors
3. Newton’s Laws of Motion
4. Frames of Reference: Galilean Transformation
5. Conservation of Energy
6. Conservation of Linear and Angular Momentum
7. Harmonic Oscillator: Properties and Examples
8. Elementary Dynamics of Rigid Bodies
9. Inverse-square-law Force
10. The Speed of Light
11. Special Relativity: The Lorentz Transformation
12. Relativistic Dynamics: Momentum and Energy
13. Problems in Relativistic Dynamics
14. Principle of Equivalence
9780070702134
Physics
Mechanics
Berkeley Physics Course
531 KIT/M
MECHANICS IN SI UNITS: BERKELEY PHYSICS COURSE VOLUME 1 - 2nd Ed. - NEW DELHI TATA Mc GRAW HILL EDUCATION 2011 - 451p.
https://www.mheducation.co.in/mechanics-in-si-units-berkeley-physics-course-vol-1-9780070702134-india
This classic text is widely considered to be the best overall introductory text book on the subject . It has a complete and integrated coverage suitable for someone who wants to understand the underlying concepts of the subject.
1. Introduction
2. Vectors
3. Newton’s Laws of Motion
4. Frames of Reference: Galilean Transformation
5. Conservation of Energy
6. Conservation of Linear and Angular Momentum
7. Harmonic Oscillator: Properties and Examples
8. Elementary Dynamics of Rigid Bodies
9. Inverse-square-law Force
10. The Speed of Light
11. Special Relativity: The Lorentz Transformation
12. Relativistic Dynamics: Momentum and Energy
13. Problems in Relativistic Dynamics
14. Principle of Equivalence
9780070702134
Physics
Mechanics
Berkeley Physics Course
531 KIT/M