When a large bubble rises from the bottom of the lake of its surface , its radius doubles . The atmospheric pressure is equal to the column of water of height Hh .The depth of the lake is :

A bubble of gas released at the bottom of a lake increases to four times its original volume when it reaches the surface. Assuming that atmospheric pressure is equivalent to the pressure exerted by a column of water 10 m high, what is the depth of the lake?

When an air bubble rises in water, what happens to its potential energy?

A small bubble rises from the bottom of a lake, where the temperature and pressure are 8^(@)C and 6.0 atm , to the water's surface, where the temperature is 25^(@)C and pressure is 1.0 atm . Calculate the final volume of the bubble if its initial volume was 2mL .

Show that the height of the cylinder, open at the top of given surface area and greatest volume is equal to the radius of its base.

An air bubble of volume 1.0 cm^3 rises from the bottom of a lake 40 m deep at a temperature of 12^@C . To what volume does it grow when it reaches the surface, which is at a temperature of 35^@C ?

An object of mass m is raised from the surface of the earth to a heigt equal to the radius of the earth , that is, taken from a distance R to 2R from the centre of the earth. What is the gain in its potential energy?

A ladder 5 m long is leaning against a wall. The bottom of the ladder is pulled along the ground, away from the wall, at the rate of 2cm/s. How fast is its height on the wall decreasing when the foot of the ladder is 4 m away from the wall ?

A ladder 5 m long is leaning against a wall. The bottom of the ladder is pulled along the ground, away from the wall, at the rate of 3 cm/sec. How fast is its height on the wall decreasing when the foot of the ladder is 3 m away from the wall?