# Worksheet for fluid mechanics by stariya

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```									Worksheet for fluid mechanics:

Chapters 1 & 2

Define the following, including dimensions, units, and symbols where appropriate:

1.  Density
2.  Specific weight
3.  Specific gravity
4.  Specific volume
5.  Absolute pressure v. gage pressure
6.  Viscosity:
A. Dynamic viscosity
B. Absolute viscosity
C. Kinematic viscosity
7. Newtonian fluid v. non-Newtonian fluid
8. Shear thinning fluid
9. Shear thickening fluid
10. Vapor pressure
11. Surface tension
12. Angle of contact
13. Capillary action/capillary rise
15. Cohesion
16. Wetting
17. Bulk modulus
18. Isothermal
19. Isentropic
20. Pascal’s Law
21. Compressible fluid v. Incompressible fluid
22. Hydrostatic pressure
24. Standard Atmosphere
25. Vacuum pressure
26. Barometer
27. Manometer
28. Manometry
29. To be continued…
30. Hydrostatic force
31. Resultant fluid force
32. Yc,Yr
33. Pressure Prism
34. Buoyancy/Buoyant Force
35. Flotation
36. Stability
37. Archimedes’ Principle
38. Center of Buoyancy
39. Rigid Body Motion of a fluid
A. Linear Motion
B. Rotational Motion
Chapters 3 & 4
41. Streamline
42. Streakline
43. Pathline
44. Bernoulli equation
48. Static pressure
49. Dynamic pressure
50. Stagnation point
51. Stagnation pressure
52. Total pressure
53. Pitot-static tube
54. Free jet
55. Volumetric flowrate
56. Continuity equation
57. Cavitation
58. Flow meter
60. Energy line
61. Continuum hypothesis
62. Field representation
63. Velocity field
64. Eulerian method
65. Langrangian method
67. Acceleration field
68. Material derivative
69. Local acceleration
70. Convective acceleration
71. System
72. Control volume
73. Control surface
74. Reynolds transport theorem
Chapter 5
75. System
76. Control volume
77. Control surface
78. Conservation of mass
79. Continuity equation
80. Volumetric flowrate
82. Mass flowrate
83. Linear momentum equation
84. First law of thermodynamics
85. Energy equation loss
Chapter 6
88. Volumetric dilation rate
89. General motion of a differential fluid element
90. Compressible/incompressible flow
91. Moving control volume
92. Deforming control volume
93. Linear momentum (from Newton’s second law, applied to a fluid)
94. Linear deformation
95. Angular deformation
96. Translation
97. Rotation
98. Cross derivatives
99. Angular velocity (vector)
100.         Curl
101.         Vorticity
102.         Rotational/Irrotational flow continuity equation
103.         Stream function
104.         Rate of shearing strain
105.         Mass outflow (as applied to differential analysis)
106.         The Stream Function, and it’s relationship to streamlines

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