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a capillary tube of 1.2mm diameter is immersed vertically in water container exposed to atmosphere . find how high water will rise in the tube . take contact angle of the inner wall of the tube to be 6 degress and surface tension to be 1 n/m take density of water as 1000kg/m^3

a capillary tube of 1.2mm diameter is immersed vertically in water container exposed to atmosphere . find how high water will rise in the tube .  take contact angle of the inner wall of the tube to be 6 degress and surface tension to be 1 n/m take density of water as 1000kg/m^3

Grade:11

1 Answers

Mayank
368 Points
5 years ago
 
using the formulae h=2Scos(theta)/dgr  where d=density of water , r= radius of capillary tube and putting the values 
 
   h=2*1*cos(6) / 1000*9.8*0.6*(10^-3) = 0.338272
hope this helps................................

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