How to Solve Physics Problems
Autor Daniel Oman, Robert Omanen Limba Engleză Paperback – 16 ian 2016
Learn how to solve physics problems the right way
How to Solve Physics Problems will prepare you for physics exams by focusing on problem-solving. You will learn to solve physics problems naturally and systematically--and in a way that will stick with you. Not only will it help you with your homework, it will give you a clear idea of what you can expect to encounter on exams.
- 400 physics problems thoroughly illustrated and explained
- Math review for the right start
- New chapters on quantum physics; atoms, molecules, and solids; and nuclear physics
Preț: 219.44 lei
Preț vechi: 251.71 lei
-13% Nou
Puncte Express: 329
Preț estimativ în valută:
41.99€ • 44.17$ • 34.98£
41.99€ • 44.17$ • 34.98£
Carte tipărită la comandă
Livrare economică 03-14 ianuarie 25
Preluare comenzi: 021 569.72.76
Specificații
ISBN-13: 9780071849319
ISBN-10: 0071849319
Pagini: 432
Dimensiuni: 211 x 269 x 23 mm
Greutate: 1 kg
Ediția:2
Editura: McGraw Hill Education
Colecția McGraw-Hill
Locul publicării:United States
ISBN-10: 0071849319
Pagini: 432
Dimensiuni: 211 x 269 x 23 mm
Greutate: 1 kg
Ediția:2
Editura: McGraw Hill Education
Colecția McGraw-Hill
Locul publicării:United States
Cuprins
About the Authors
Preface
How to Use this Book
How to Excel in Your Physics Course
Mathematical Background
1. Vectors
2. Kinematics in One Dimension
3. Falling Body Problems
4. Projectile Motion
5. Forces (including Centripetal Force)
6. Apparent Weight
7. Work and the Definite Integral
8. Work-Energy Problems
9. Center of Mass and Momentum
10. Collision and Impulse
11. Rotational Motion
12. Rotational Dynamics
13. Equilibrium
14. Gravity
15. Simple Harmonic Motion
16. Fluids
17. Temperature and Calorimetry
18. Kinetics and the Ideal Gas Laws
19. First Law of Thermodynamics
20. Second Law of Thermodynamics
21. Mechanical Waves
22. Standing Waves (Strings and Pipes)
23. Sound
24. Charge and Coulomb’s Law
25. The Electric Field
26. Gauss’ Law
27. Electric Potential
28. Capacitance
29. Current and Resistance
30. Resistors in D.C. Circuits
31. Kirchhoff’s Laws
32. R-C Circuits
33. Magnetic Fields
34. Magnetic Forces
35. Ampere’s Law
36. Biot-Savart Law
37. Faraday’s Law
38. Inductance
39. R-L Circuits
40. Oscillating L-C Circuits
41. Series R-L-C Circuits and Phasors
42. Maxwell’s Equations
43. Electromagnetic Waves
44. Reflection, Refraction, and Polarization
45. Mirrors and Lenses
46. Diffraction and Interference
47. Special Relativity
48. Quantum Physics
49. Atoms, Molecules, and Solids
50. Nuclear Physics
Appendix A: Physical Constants
Appendix B: Conversions
Appendix C: The Periodic Table
Index
Preface
How to Use this Book
How to Excel in Your Physics Course
Mathematical Background
1. Vectors
2. Kinematics in One Dimension
3. Falling Body Problems
4. Projectile Motion
5. Forces (including Centripetal Force)
6. Apparent Weight
7. Work and the Definite Integral
8. Work-Energy Problems
9. Center of Mass and Momentum
10. Collision and Impulse
11. Rotational Motion
12. Rotational Dynamics
13. Equilibrium
14. Gravity
15. Simple Harmonic Motion
16. Fluids
17. Temperature and Calorimetry
18. Kinetics and the Ideal Gas Laws
19. First Law of Thermodynamics
20. Second Law of Thermodynamics
21. Mechanical Waves
22. Standing Waves (Strings and Pipes)
23. Sound
24. Charge and Coulomb’s Law
25. The Electric Field
26. Gauss’ Law
27. Electric Potential
28. Capacitance
29. Current and Resistance
30. Resistors in D.C. Circuits
31. Kirchhoff’s Laws
32. R-C Circuits
33. Magnetic Fields
34. Magnetic Forces
35. Ampere’s Law
36. Biot-Savart Law
37. Faraday’s Law
38. Inductance
39. R-L Circuits
40. Oscillating L-C Circuits
41. Series R-L-C Circuits and Phasors
42. Maxwell’s Equations
43. Electromagnetic Waves
44. Reflection, Refraction, and Polarization
45. Mirrors and Lenses
46. Diffraction and Interference
47. Special Relativity
48. Quantum Physics
49. Atoms, Molecules, and Solids
50. Nuclear Physics
Appendix A: Physical Constants
Appendix B: Conversions
Appendix C: The Periodic Table
Index