Physics for Engineers - 1

Features

• This unique free application is for all students across the world. It covers 72 topics of Physics-I in detail. These 72 topics are divided in 6 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 of Theory of Relativity
• 2. Inertial & non-inertial frames
• 3. Non-inertial frame and Fictitious forces
• 4. Michelson- Morley experiment
• 5. The postulates of special theory of Relativity
• 6. Lorentz Transformation
• 7. Simultaneity
• 8. Length contraction & Time dilation
• 9. The Relativistic Addition of Velocity
• 10. Twin Paradox
• 11. Relativistic momentum
• 12. Relativistic Energy
• 13. Interference: Superposition of Waves
• 14. Superposition of waves with different polarization: Interference
• 15. Superposition of waves of slightly different wavelengths and frequency: Interference
• 16. Intensity distribution
• 17. System for observing interference phenomenon: Fresnel Biprism
• 18. Newton's Ring
• 19. Conditions for Interference
• 20. Classification of Interference Phenomenon
• 21. Division of Amplitude
• 22. Classification of fringes
• 23. Michelson interferometer
• 24. Febry-Perot Interferometer
• 25. Engineering applications of Interference phenomenon
• 26. Twymann-Green Interferometer
• 27. Measurement of thickness of thin film
• 28. Optics: Diffraction
• 29. classes of Diffraction
• 30. Analysis of Diffraction pattern due to single slit
• 31. Diffraction by double slit
• 32. Distribution of intensity on screen
• 33. Intensity distribution in diffraction pattern by Grating
• 34. Resolving Power of Grating and other Image forming system
• 35. Resolving power of image forming systems: Telescope and Microscope
• 36. Diffraction by multiple slits: Diffraction Grating
• 37. Electromagnetic Spectrum
• 38. Electromagnetic wave as the transverse wave: phase factor
• 39. Electromagnetic waves at the interface of two dielectric mediums
• 40. Fresnel's equations
• 41. Brewster's angle
• 42. Randomly polarized light
• 43. Representation of polarized light in Jones calculus
• 44. Circularly polarized light
• 45. Change of polarization at metallic surface
• 46. Elliptically polarized light
• 47. Polarization of light by reflection
• 48. Phenomena of double refraction
• 49. Propagation of light through birefringent crystal
• 50. Retardation Plate
• 51. Quarter wave plate
• 52. INTRODUCTION: LASER
• 53. Spontaneous and stimulated emission of radiation
• 54. RELATION BETWEEN EINSTEIN A AND B COEFFICIENTS
• 55. Population Inversion
• 56. Main Features of laser
• 57. HELIUM-NEON LASER
• 58. Ruby Laser
• 59. APPLICATIONS OF LASER
• 60. Basic Concepts: holography
• 61. principle of holography
• 62. Holography Applications
• 63. Optical Fibres characterstics
• 64. Fibre design issues
• 65. Fibre attributes
• 66. Numerical aperture
• 67. Cables attributes: Attenuation
• 68. Link attributes
• 69. Types of fibers: Multimode optical fibres
• 70. Types of fibers: Single-mode optical fibres
• 71. Signal loss in optical fiber and dispersion
• 72. Optical Fiber Communications

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