The objective of the App is bring quick learning of the subject by breaking it down into smaller subtopics. It is fast to revise and learn the subject at your convenience.
The app presents more than 120 topics of Thermodynamics in a manner which is easy to explore and understand. These topics are divided in 4 units.
Some of topics Covered in this application are:
1. INTRODUCTION: Thermodynamics
2. THERMODYNAMIC SYSTEMS AND CONTROL VOLUMES
3. PROPERTIES OF A SYSTEM
4. Continuum
5. DENSITY AND SPECIFIC GRAVITY
6. PROCESSES AND CYCLES
7. TEMPERATURE AND THE ZEROTH LAW OF THERMODYNAMICS
8. Temperature Scales
9. FORMS OF ENERGY
10. ENERGY TRANSFER BY HEAT
11. ENERGY TRANSFER BY WORK
12. NONEQUILIBRIUM WORK
13. THE FIRST LAW OF THERMODYNAMICS APPLIED TO A CYCLE
14. THE FIRST LAW APPLIED TO A PROCESS
15. ENTHALPY
16. The Constant-Temperature and Constant-Volume Process
17. The Adiabatic Process
18. The Polytrophic Process
19. The Continuity Equation
20. The Energy Equation
21. Throttling Devices
22. Nozzles and Diffusers
23. Ideal Gas
24. MECHANICAL FORMS OF WORK
25. Shaft Work
26. Flow Work
27. Qualitative Difference between Heat and Work
28. Conservation of mass and energy
29. Second law of thermodynamics: Introduction
30. Limitations of First Law of Thermodynamics
31. Kelvin Planck’s statement
32. Clausius statement
33. Equivalence of Kelvin-Planck and Clausius Statements
34. Irreversibility and Causes of Irreversibility
35. REVERSIBILITY
36. THE CARNOT ENGINE
37. CARNOT EFFICIENCY
38. Heat Engines
39. Thermal Efficiency
40. Can We Save Qout?
41. Coefficient of Performance
42. Heat Pumps
43. PERPETUAL MOTION MACHINES
44. Non-Quasi-Equilibrium Expansion and Compression
45. The Reversed Carnot Cycle
46. Difference between Free Expansion of a Gas and Reversible Isothermal Expansion
47. Features of reversible processes
48. Equality of ideal Gas Temperature and Kelvin Temperature
49. Entropy-introduction
50. Two Reversible Adiabatic Paths Cannot Intersect Each Other
51. Clausius Theorem
52. Temperature Entropy Diagram
53. Temperature Entropy Diagram
54. Second law analysis of a control volume
55. Entropy change of an incompressible substance
56. Available Energy
57. Available energy conversion to work
58. " Loss of Available Energy due to Heat Transfer through a Finite Temperature Difference"
59. Entropy generation associated with a heat transfer
60. Mixture of ideal gases
61. Dalton 's Law of partial pressure
62. Amagat's Law
63. Available Energy Referred to a Cycle
64. Decrease in Available Energy when Heat is Transferred through a Finite Temperature Difference
65. Available Energy from a Finite Energy Source
66. Quality of Energy
67. Entropy and the degradation of energy
68. EXERGY: WORK POTENTIAL OF ENERGY
69. Exergy (Work Potential) Associated with Kinetic and Potential Energy
70. REVERSIBLE WORK AND IRREVERSIBILITY
71. SECOND-LAW EFFICIENCY
72. EXERGY CHANGE OF A SYSTEM
73. Exergy of a Fixed Mass: Nonflow (or Closed System) Exergy
74. Exergy of a Flow Stream: Flow (or Stream) Exergy
75. Exergy by Heat Transfer
76. Exergy Transfer by Work
77. Exergy Transfer by Mass
78. THE DECREASE OF EXERGY PRINCIPLE
79. Exergy Destruction
80. EXERGY BALANCE: CLOSED SYSTEMS
81. EXERGY BALANCE: CONTROL VOLUMES
82. Exergy Balance for Steady-Flow Systems
83. Reversible Work
84. Phases of a Pure Substance
85. Phase-Change Processes of Pure Substances
86. P-v diagram of a pure substance
87. The P-T or Phase Change Diagram
88. Property Tables
89. Saturated Liquid-Vapor Mixture
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