A large open tank is filled with water upto a height H. A small hole is made at the base of the tank. It takes `T_1` time to decrease the height of water to H/n(ngt1) and it takes `T_(2)` time to take out the remaining water. If `T_(1)=T_(2)`, then the value of n is

A large tank is filled with water to a height H . A small hole is made at the base of the tank. It takes T_(1) time to decrease the height of water to (H)/(eta) (eta gt 1) , and it takes T_(2) times to take out the rest of water. If T_(1) = T_(2) , then the value of eta is

A tank is filled with a liquid upto a height H, A small hole is made at the bottom of this tank Let t_(1) be the time taken to empty first half of the tank and t_(2) time taken to empty rest half of the tank then find (t_(1))/(t_(2))

A tank if filled with water upto height H. When a hole is made at a distance h below the level of water. What will be the horizontal range of water jet ?

In a container, filled with water upto a height h, a hole is made in the bottom. The velocity of water flowing out of the hole is

Liquid is filled in a container upto a height of H . A small hle is made at the bottom of the tank. Time taken to empty from H to (H)/(3) is t_(0) . Find the time taken to empty tank from (H)/(3) to zero.

A tank is filled with water to a height h. A hole is made at the bottom of the tank through which water can flow out. Calculate the ratio of time taken to make the level of water from h to h/4" and then "h/4" to 0."

A large tank filled with water to a height h is to be emptied through a small hole at the bottom. The ratio of times taken for the level of water to fall from h to (h)/(2) and from (h)/(2) to zero is

A tank is filled with water up to a height H . Water is allowed to come out of a hole P in one of the walls at a depth D below the surface of water. Express the horizontal distance x in terms of H and D .