The app is a complete free handbook of Engineering physics which covers important topics, notes, materials, news & blogs on the course. Download the App as a reference material & digital book for basic engineering programs & degree courses.

This useful App lists 60 topics with detailed notes, diagrams, equations, formulas & course material, the topics are listed in 4 chapters. The app is must have for all the engineering science students & professionals.

The app provides quick revision and reference to the important topics like a detailed flash card notes, it makes it easy & useful for the student or a professional to cover the course syllabus quickly before an exams or interview for jobs.

Track your learning, set reminders, edit the study material, add favorite topics, share the topics on social media.

You can also blog about engineering technology, innovation, engineering startups, college research work, institute updates, Informative links on course materials & education programs from your smartphone or tablet or at http://www.engineeringapps.net/.

Use this useful engineering app as your tutorial, digital book, a reference guide for syllabus, course material, project work, sharing your views on the blog.

Some of the topics Covered in the app 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

Each topic is complete with diagrams, equations and other forms of graphical representations for better learning and quick understanding.

Engineering physics is part of basic engineering education courses and all technology degree programs of various universities.

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