1 ft/min=_____ ft/h using dimensional analysis
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Q: Use dimensional analysis to convert the quantity to the indicated units. 24 in. to ft
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A: Given : A = 1.5 x 106 mm2 = 1.5 m2 dy = 0.2 mm du = 0.5 m/s viscosity = 1 poise = 0.1 N.s/m2
Q: Q2:- If the velocity of flow v, dynamic viscosity u, bulk modulus of elasticity K and diameter of…
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Q: Q2:- If the velocity of flow v, dynamic viscosity a, bulk modulus of elasticity K and diameter of…
A: ,
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Q: the viscosity of a liquid having kinematic viscosity 5 stokes and specific gravity 1.6 is ------ a)…
A: Data given- Kinematics viscosity = 5 stakes = 5 × 10-4 m2/s Specific gravity = 1.6
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Q: By using dimensional analysis concept, express the wall shear stress for the pipe flow which is…
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A: Acceleration = 6.5 m/s2 meter into ft :- 1 m = 3.281ft Second into hr :- 1s =0.000277778 hr
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1 ft/min=_____ ft/h using dimensional analysis
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- Q1) By using dimensional analysis concept, express the wall shear stress for the pipe flow which is depending likely on the distance from the beginning of the pipe, pipe diameter, pipe wall roughness, fluid velocity, density and viscosity?Use dimensional analysis to convert the quantity to the indicated units. 24 in. to ftThe absolute viscosity μ of a fluid is primarily afunction of( a ) Density, ( b ) Temperature, ( c ) Pressure, ( d ) Velocity,( e ) Surface tension
- the viscosity of a liquid having kinematic viscosity 5 stokes and specific gravity 1.6 is ------ a) 8 poise b ) 8.2 poise c) 8.5 poise d ) 9.0 poisein fig below, fluid A is water (PH2o = 62.1lbm/ft^3), fluid B is mercury (PHg = 0.4888lbm/in^3). Local acceleration of gravity is standard, z=4.5 ft. what is the pressure difference. with drawing and explanationAs shown in Fig. 1.12, a horizontal interface 0-0 exists between two immiscible liquids. The dynamic viscosity of these two liquids are 0.14 Pa sand 0.24 Pa s respectively. The thickness is d1 0.8 mm and d2 1.2 mm respectively. Assuming that the velocity gradient is linear. Find theforce F required to push a bottom area A 1000 cm2 wood board to movewith velocity v0 0.4 m/s along the surface?
- SI unit of dynamic viscosity is a. Stokes b. Poise c. m2/s d. Ns/m1. What is the purpose of having absolute temperature scales? 2. Differentiate incompressible and compressible flow. Give at least two (2) examples relating to aeronautical and/or aerospace. 3. Give at least five (5) application of thermodynamics in real life. Briefly explain each application using different concepts, principles and/or theories in thermodynamicsWhich of the following is not an application of the dimensional analysis? A. To find the value of the dimensionless constant B. Conversion of one system of units into other systems C. To check the dimensional balance of an equation D. To establish the relationship among various physical quantities