A capillary tube is dipped in water vertically. It is long enough for the water to rise to the maximum height `h` in the tube. The length of portion immersed in water is `I lt h`. The lower end of the tube is closed and then the tube is taken out and opened again. Will all the water flow out of tube? Explain.

The capillary tube is dipped in water vertically it is sufficiently long so that water rises to maximum height h in the tube te length of the portion immersed in water is lgth . The lower end of the tube is closed the tube is taken out and opened again then find length of the water column remaining in the tube.

The capillary tube is dipped in water vertically it is sufficiently long so that water rises to maximum height h in the tube te length of the portion immersed in water is lgth . The lower end of the tube is closed the tube is taken out and opened again then find length of the water column remaining in the tube.

A capillary tube is dipped in water and the water rises in it to a height h . If r be the radius of the bore of the tube , then

A capillary tube is dipped in water to a depth and the water rises to a height h( lt l) in the capillary tube. The lower end of the tube is closed in water by putting a lower over it. The tube is now taken out and the thumb is removed from the lower end and it kept open. The length of liquid column in the tube will be

A capillary tube is dipped in water to a depth and the water rises to a height h( lt l) in the capillary tube. The lower end of the tube is closed in water by putting a lower over it. The tube is now taken out and the thumb is removed from the lower end and it kept open. The length of liquid column in the tube will be

Water rises to a height h in a capillary tube lowered vertically into water to a depth l as shown in the figure. The lower end of the tube is now closed, the tube is the taken out of the water and opened again. The length of the water column remaining in the tube will be .

Water rises to a height h in a capillary tube lowered vertically into water to a depth l as shown in the figure. The lower end of the tube is now closed, the tube is the taken out of the water and opend again. The length of the eater column remaining in the tube will be .

Water rises to height h in capillary tube. If the length of capillary tube above the surface of water is made less than h then