Answer to Question #289701 in Mechanics | Relativity for Hin

Question #289701

A hydraulic circular rod having a 100mm diameter and 2m long is

pulled by a force of 200 N.

It moves with a constant velocity within a

circular hollow tube of 101mm internal diameter.

The clearance of

0.5mm between the rod and the tube is filled with oil of specific gravity

0.8 and kinematic viscosity 400 mm^2/s as shown in the figure below.

Determine the velocity of the rod in units of m/s.

Expert's answer

Answer

Diameter of Rod D_rod=100mm

Length l=2m

Force F=200N

circular hollow tube of 101mm internal diameter. D_i=101mm

clearance SG=0.8

kinematic viscosity v=400 mm^2/s

So we can say

the velocity of the rod is given by

"V=\\frac{Fh}{vSG\\rho _{H20}\\pi D_{rho}l}\\\\=\\frac{200\\times0.5\\times10^{-3}}{400\\times10^{-6}\\times0.8\\times1000\\times3.14\\times100\\times10^{-3}\\times2}"

"=0.5m\/sec"

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Answer to Question #289701 in Mechanics | Relativity for Hin

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