Physics for Engineers - 2

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Description

This unique application is for all students across the world. It covers 61 topics of Physics II in detail. These 61 topics are divided in 4 units.

Each topic is around 600 words and is complete with diagrams, equations and other forms of graphical representations along with simple text explaining the concept in detail.

This USP of this application is "ultra-portability". Students can access the content on-the-go from anywhere they like.

Basically, each topic is like a detailed flash card and will make the lives of students simpler and easier.

Some of topics Covered in this application are:

1. Introduction to wave mechanics
2. de-Broglie matter waves
3. THE SCHRIODINGER EQUATION
4. Wave-Particle Duality
5. Phase and group velocity
6. Davisson-Germer Experiment
7. Physical significance of wave function
8. Particle in a 1D-box
9. Principles of X-ray Diffraction
10. Braggs spectrometer
11. Compton Effect
12. Experimental verification: Compton Effect
13. Ultrasonic Production
14. Piezoelectric effect
15. Piezoelectric generator
16. Detection of Ultrasonic Waves
17. Acousing Grating
18. application of ultrasonics
19. Ultrasonic Cleaning applications
20. Dielectric Constant
21. Motion in a Magnetic Field
22. Dielectric constant and polarizability
23. Sources of polarizability
24. Piezoelectricity
25. Ferroelectricity
26. Dielectric Loss
27. Langevins theory for diamagnetic material
28. Langevins Theory of Paramagnetism
29. Magnetic Field
30. The Lorentz Force
31. Motion in a crossed electric and magnetic fields
32. Force on a Current Carrying Conductor
33. Torque on a Current Loop in a Uniform Magnetic Field
34. Potential Energy of a Magnetic Dipole
35. Biot- Savarts' Law
36. Amperes Law
37. Vector Potential
38. Electromagnetic Induction
39. Motional Emf
40. Time Varying Field
41. Mutual Inductance
42. Self Inductance
43. Magnetism in Matter
44. Ferromagnets
45. Diamagnetism:Displacement Current
46. Maxwell's Equations
47. Electromagnetic Waves
48. Generation of Electromagnetic Waves
49. Poynting Vector
50. Introduction: Evidence of a Phase Transition
51. Meissner effect
52. The magnetic properties of superconductors
53. Type I and Type II Superconductors
54. Mechanism of superconductivity
55. BCS theory and Cooper pairs
56. High Tc superconductors
57. Applications of superconductors
58. The Importance of Nanoscale
59. Buckyballs
60. Ongoing Research and Development Activities
61. Applications of nanotechnology