Figure 0 shows the change in density of a newtonian fluid with temperature, ing/m^3.Falling spere experiments give average times of 0.2s @ 10 c and 0.23s @ 20 cUsing the equation u=K(ps-pf)tWhere K is found to be 1.34Ps=2300 kg/m3Calculate the viscosity of the fluid at 20 c and 10 c Fig 03°C 0.80374 16°C 0.79283 29°C 0.781824°C5°C6°C7°C8°C9°C0.80290 17°C 0.79198 30°C 0.780970.80207 18°C 0.79114 31°C 0.780120.80123 19°C 0.79029 32°C 0.779270.80039 20°C 0.78945 33°C 0.778410.79956 21°C 0.78860 34°C 0.777560.79872 22°C 0.78775 35°C 0.7767110°C 0.79788 23°C 0.78691 36°C 0.7758511°C 0.79704 24°C 0.78606 37°C 0.7750012°C 0.79620 25°C 0.78522 38°C 0.7741439°C 0.77329 40°C 0.77244

Given Data: viscosity μ=K(ρs-ρf)t K=1.34 ρs=2300 kg/m3=2.3 g/m3 Falling spere experiments give…

Figure 0 shows the change in density of a newtonian fluid with temperature, in g/m^3. Falling spere experiments give average times of 0.2s @ 10 c and 0.23s @ 20 c Using the equation u=K(ps-pf)t Where K is found to be 1.34 Ps=2300 kg/m3 Calculate the viscosity of the fluid at 20 c and 10 c

Figure 0 shows the change in density of a newtonian fluid with temperature, in g/m^3. Falling spere experiments give average times of 0.2s @ 10 c and 0.23s @ 20 c Using the equation u=K(ps-pf)t Where K is found to be 1.34 Ps=2300 kg/m3 Calculate the viscosity of the fluid at 20 c and 10 c

Principles of Heat Transfer (Activate Learning with these NEW titles from Engineering!)

8th Edition

ISBN:9781305387102

Author:Kreith, Frank; Manglik, Raj M.

Publisher:Kreith, Frank; Manglik, Raj M.

Chapter5: Analysis Of Convection Heat Transfer

Section: Chapter Questions

Problem 5.2P: 5.2 Evaluate the Prandtl number from the following data: , .

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Concept explainers

Properties of Fluids

The term fluid represents a type of substance that can easily change its shape under any external pressure/force and can flow. Fluids can acquire any shape in which it is stored and can resist normal stresses but cannot resist shear stress in rest condition. Whenever external shear stress is applied to fluids, it starts to flow. The fluids may be liquid or gas. Example- water, air, etc.

Question

Figure 0 shows the change in density of a newtonian fluid with temperature, in
g/m^3.
Falling spere experiments give average times of 0.2s @ 10 c and 0.23s @ 20 c
Using the equation u=K(ps-pf)t
Where K is found to be 1.34
Ps=2300 kg/m3
Calculate the viscosity of the fluid at 20 c and 10 c

Fig 0
3°C 0.80374 16°C 0.79283 29°C 0.78182
4°C
5°C
6°C
7°C
8°C
9°C
0.80290 17°C 0.79198 30°C 0.78097
0.80207 18°C 0.79114 31°C 0.78012
0.80123 19°C 0.79029 32°C 0.77927
0.80039 20°C 0.78945 33°C 0.77841
0.79956 21°C 0.78860 34°C 0.77756
0.79872 22°C 0.78775 35°C 0.77671
10°C 0.79788 23°C 0.78691 36°C 0.77585
11°C 0.79704 24°C 0.78606 37°C 0.77500
12°C 0.79620 25°C 0.78522 38°C 0.77414
39°C 0.77329 40°C 0.77244

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