A glass rod of diameter `d_(1)=1.5 mm` in inserted symmetrically into a glass capillary with inside diameter `d_(2)=2.0` mm. Then the whole arrangement is vertically oriented and brought in contact with the surface of water. To what height will the liquid rise in the capillary?
Surface tension of water `=73xx10^(-3)N//m`

A glass rod of diameter d_(1)=1.5 mm in inserted symmetricaly into a glas capillary with inside diameter d_(2)=2.0 mm. Then the whole arrangement is vertically oriented and bruoght in contact with the surface of water. To what height will the liquid rise in the capillary? Surface tension of water =73xx10^(-3)N//m

A glass rod of diameter d_1 =1.5 mm is inserted symmetrically into a glass capillary with inside diameter d_2=2 mm . Then the whole arrangement is vertically oriented and broght in contact with the surface of water . Surface tension and density of water are 0.075 N//m and 10^3 kg//m^3 respectively . the height throgh which the water will rise in the capillary is (g=10 m//s^2)

A glass rod of radius 1 mm is inserted symmetrically into a glass capillary tube with inside radius 2 mm . Then the whole arrangement is brought in contact of the surface of water. Surface tension of water is 7 xx 10^(-2) N//m . To what height will the water rise in the capillary? ( theta = 0^@ )

A glass rod of diameter d=2mm is inserted symmetrically into a glass capillary tube of radius r=2mm . Then the whole arrangement is vertically dipped into liquid having surface tension 0.072 Nm. The height to which liquid will rise on capillary is (Take g=10(m)/(s^(2)) , "density"_("liq")=1000(kg)/(m^(3))) . Assume contact angle to be zero, capillary tube to be long enough

If water rises in a capillary tube upto 3 cm . What is the diameter of capillary tube (Surface tension of water = 7.2 xx 10^(-2) N//m )

A capillary tube of radius 0.5 mm is dipped in a vessel containing water. Calculate the height to which water will rise in the capillary tube. Take, surface tension of water =7.4 xx 10^(-3)" N/m".

A vertical vapillary with inside diameter 0.50 mm is submergeed into water so that the length of its part emerging outside the water surface is equal to 25 mm . Find the radius of curvature of the meniscus. Surface tension of water is 73xx10^(-3)N//m .

A glass rod of radius r_(1) is inserted symmetrically into a vertical capillary tube of radius r_(2) such that their lower ends are at the same level. The arrangement is now dipped in water. The height to which water will rise into the tube will be ( sigma = surface tension of water, rho = density of water)

A glass capillary of radius 0.4 mm is inclined at 60^(@) with the vertical in water. Find the length of water in the capillary tube. (Given, surface tension of water = 7 xx 10^(-2) N^(-1) ).

A long capillary tube of radius 1 mm, open at both ends is filled with water and placed vertically. What will be the height of water column left in the capillary ? (Surface tension of water is 73.5xx10^(-3)Nm^(-1))