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. TENSILE STRESS

2. COMPRESSIVE STRESS

3. SHEAR STRESS

4. VOLUMETRIC STRESS

5. VOLUMETRIC STRAIN

6. SHEAR STRAIN

7. COMPRESSIVE STRAIN

8. TENSILE STRAIN

9. STRESS STRAIN DIAGRAM

10. THERMAL STRESS

11. POISSON RATIO

12. THREE MODULUS

13. Temperature Stress In Composite Bar

14. STRAIN ENERGY

15. MODULUS OF RESSILINCE AND TOUGHNESS

16. STRAIN ENERGY IN GRADUAL AND SUDDEN LOAD

17. STRAIN ENERGY IN IMPACT LOAD

18. HOOK'S LAW

19. STRESS, STRAIN AND CHANGE IN LENGTH

20. CHANGE IN LENGTH WHEN ONE BOTH ENDS ARE FREE

21. CHANGE IN LENGTH WHEN ONE BOTH ENDS ARE FIXED

22. Composite bar in tension or compression

23. Principal Stress And Principal Plane

24. Maximum Shear Stress

25. Theories Of Elastic Failure

26. Maximum Principal Stress Theory

27. Maximum Shear Stress Theory:

28. Maximum Principal Strain Theory

29. Total Strain Energy Per Unit Volume Theory

30. Maximum Shear Strain Energy Per Unit Volume Theory

31. Mohr’s Rupture Theory For Brittle Materials

32. Mohr’s Circle

33. Introduction to Bending Moment And Shearing Force

34. Shearing Force, And Bending Moment In A Straight Beam

35. Sign Conventions For Bending Moments And Shearing Forces

36. Bending Of Beams

37. Procedure For Drawing Shear Force And Bending Moment Diagram

38. SFD & BMD Of Cantilever Carrying Load At Its One End

39. SFD And BMD Of Simply Supported Beam Subjected To A Central Load

40. SFD And BMD Of A Cantilever Beam Subjected To U.D.L

41. Simply Supported Beam Subjected To U.D.L

42. Simply Supported Beam Carrying UDL & End Couples

43. Points Of Inflection

44. Theory Of Bending : Assumption And General Theory

45. Elastic Flexure Formula

46. Beams Of Composite Cross Section

47. Flexural Buckling Of A Pin-Ended Strut

48. Rankine-Gordon Formula

49. Comparison Of The Rankine-Gordon And Euler Formulae

50. Effective Lengths Of Struts

51. Struts And Columns With One End Fixed And The Other Free

52. Thin Cylinder

53. Members Subjected to Axisymmetric Load

54. ANALYSIS: Pressurized thin walled cylinder

55. Longitudinal Stress: Pressurized thin walled cylinder

56. Change in Dimensions: Pressurized thin walled cylinder

57. Volumetric Strain or Change in the Internal Volume

58. Cylindrical Vessel with Hemispherical Ends

59. Thin rotating ring or cylinder

60. Stresses in thick cylinders

61. Stresses in thick cylinders

62. Representation of radial and circumferential strain

63. A thick cylinder with both external and internal pressure

64. The stress distribution within the cylinder wall

65. Methods of increasing the elastic strength of a thick cylinder by pre-stressing

66. Composite cylinders

67. Combined stress distribution in a composite cylinder

68. Multilayered or Laminated cylinder

69. Autofrettage

70. Derivation of the hoop and radial stress equations for a thickwalled circular cylinder

71. Lame line

72. Plastic deformation of thick tubes

73. Lame line for elastic zone

74. Portion of the cylinder is plastic

75. Stress in thin cylinders

76. Horizontal diametrical plane

77. Strains in thin cylinders

78. Change in Volume of Cylinder

79. Compound Cylinders

80. Press Fits

81. Analysis of Press Fits

82. Castigliano's first theorem

83. Castigliano’s Second Theorem

84. Torsion of a thin circular tube

85. Torsion of solid circular shafts

86. Torsion of a hollow circular shaft

All topics are not listed because of character limitations set by the Play Store.

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