Water (p = 1000 kg/`m^(3)` ) and kerosene (a = 800kg/`m^(3)` ) are filled in two identical cylindrical vessels. Both vessels have small holes at their bottom. The speed of the water and kerosene coming out of their holes are `v_(1)` and `v_(2)` respectively. Select the correct alternative

Water and mercury are filled in two cylindrical vessels up to same height. Both vessels have a hole in the wall near the bottom. The velocity of water and mercury coming out of the holes are v_1 and v_2 respectively. Then

A wide vessel with a small hole in the bottom is filled with water and kerosene. Find the velocity of water flow if the thickness of water layer is h_(1)=30 cm and that of kerosene is h_(2)=20cm brgt

Two identical photo-cathodes receive light of frequencies v_1 and v_2 . If the velocities of the photoelectrons (of mass m) coming out are v_1 and v_2 respectively, then

Two identical photocathodes receive light of frequencies v_(1) and v_(2) . If the velocities of the photoelectrons (of mass m) coming out are respectively v_(1) and v_(2) . then

A block of mass M and cylindrical tank which contains water having small hole at bottom, which is closed initially (total mass of cylinder + water is also M), are attached at two ends of an ideal string which passes over an ideal pulley as shown. At t = 0 hole is opened such that water starts coming out of the hole with a constant rate mu kg//s and constant velocity V_(e) relative to the cyliender. aSccleration of the block at any time t will be : (Given that string always remains taut.)

Two identical photocathode receive light of frequencies f_(1) and f_(2) . If the maximum velocities of the photoelectrons (of mass m) coming out are respectively v_(1) and v_(2) then:

Water is being poured in a vessel at a constant rate alpha m^(2)//s . There is a small hole of area a at the bottom of the tank. The maximum level of water in the vessel is proportional to

Water level is maintained ina cylindrical vessel up to a fixed height H. The vessel is kept on a horizontal plane. At what height above the bottom should a hole be made in the vessel so that the water stream coming out of the hole strikes the horizontal plane at the greatest distance from the vessel.

There is a small hole at the bottom of tank filled with water. If total pressure at the bottom is 3 atm(1 atm=10^(5)Nm^(-2)) , then find the velocity of water flowing from hole.

There is a small hole at the bottom of tank filled with water. If total pressure at the bottom is 3 atm(1 atm=10^(5)Nm^(-2)) , then find the velocity of water flowing from hole.