A hollow metallic bob is filled with a liquid. A small hole is drilled just below the centre of gravity of bob so that liquid slowly drops out of it. Water drops out continuously and the bob gets empty of liquid. In this entire process C.G.

A simple pendulum consists of a bob, which is a hollow sphere filled with a liquid completely. If a hole is made into the sphere at its bottom so that the liquid starts flowing out of it, how will the time period of the pendulum be affected? Consider that the liquid has uniform density.

A simple pendulum consists of a bob, which is a hollow sphere filled with a liquid completely. If a hole is made into the sphere at its bottom so that the liquid starts flowing out of it, how will the time period of the pendulum be affected? Consider that the liquid has uniform density.

A cylindrical tube with a frictionless piston ends in a small hole of area of cross–section 2xx10^(-6)m^(2) , which is very small as compared to the area of cross-section of the tube. The tube is filled with a liquid of density 10^(4)kg//m^(3) . The tube is held horizontal and the piston is pushed at a constant speed so that liquid comes out of the hole at a constant rate 'Q' m^(3)//s . No liquid leaks around the piston. The material of the tube can bear a maximum pressure 6xx10^(5) Pa. The maximum possible value of Q so that the tube does not break is __________ xx10^(-5)m^(3)//s . [Atmospheric pressure = 10^(5) Pa]

A large tank is filled with water ("density" = 10^(3)kg//m^(3)) . A small hole is made at a depth 10m below water surface. The range of water issuing out of the hole Is R on ground. What extra pressure must be applied on the water surface so that the range becomes 2R ("take" 1 atm = 10^(5) Pa " and " g=10m//s^(2)) :

Artificial satellites go round the earth in their respective orbits. Astronauts are able to float in side the satellite. Inside space of the satellite could be treated as gravity free space. If a beaker filled with a liquid upto height h having a small hole in the bottom is placed in such a satellite, you will wonder te liquid does not come out of the hole. You have to squeeze or force the liquid to come out. suppose a constant pressure p is applied on the liquid through piston to force it out through the hole. Out side pressure could be neglected in comparison with p Cross-sectional area of beaker is too greater than that of hole (Agtgta)

A large tank is filled waith water (density = 10^(3) kg//m^(3) ). A small hole is made at a depth 10 m below water surface. The range of water issuing out of the hole is R on ground. Approximately what extra pressure must be applied on the water surface so that the range becomes 2R (take 1 atm = 10^(5) Pa and g = 10 m//s^(2) )

A cup filled with water has a hole in the side, through which the liquid is flowing out. If the cup is dropped from a height which of the following is/are correct?

A cylindrical container of height 3L and cross sectional area A is fitted with a smooth movable piston of negligible weight. It contains an ideal diatomic gas. Under normal atmospheric pressure P_(0) the piston stays in equilibrium at a height L above the base of the container. The gas chamber is provided with a heater and a copper coil through which a cold liquid can be circulated to extract heat from the gas. Volume occupied by the heater and the liquid coil is negligible. Following set of operations are performed to take the gas through a cyclic process. (1) Heater is switched on. At the same time a tap above the cylinder is opened. Water fills slowly in the container above the piston and it is observed that the piston does not move. Water is allowed to fill the container so that the height of water column becomes L. Now the tap is closed. (2) The heater is kept on and the piston slowly moves up. Heater is switched off at the time water is at brink of overflowing. (3) Now the cold liquid is allowed to pass through the coil. The liquid extracts heat from the gas. Water is removed from the container so as to keep the position of piston fixed. Entire water is removed and the gas is brought back to atmospheric pressure. (4) The circulation of cold liquid is continued and the piston slowly falls down to the original height L above the base of the container. Circulation of liquid is stopped. Assume that the container is made of adiabatic wall and density of water is rho . Force on piston due to impact of falling water may be neglected. (a) Draw the entire cycle on a P–V graph. (b) Find the amount of heat supplied by the heater and the amount of heat extracted by the cold liquid from the gas during the complete cycle.