A gas- filled freely collapsible balloon is pushed from the surface level of a lake to a depth of `100 m`. Approximately what percentage of its original volume will the balloon finally have? Assume that the gas behaves ideally

If the temperature of an ideal gas is increased by 25% then by what percentage would its volume increase?

A ball falling in a lake of depth 200m shown 0.1% decrease in its volume at the bottom .What is the bulk modulus of the materialof the ball

A monoatomic gas at pressure P_(1) and volume V_(1) is compressed adiabatically to 1/8th of its original volume. What is the final pressure of gas.

An observer having a gun observes a remotely controlled balloon. When he first noticed the balloon, it was at an altitude of 800m and moving vertically upward at a constant velocity of 5m//s . The horizontal displacement of balloon from the observer is 1600m . Shells fired from the gun have an initial velocity of 400 m//s at a fixed angle theta ( sin theta =3//5 and cos theta =4//5 ) . The observer having gun waits ( for some time after observing the balloon ) and fires so as to destroy the balloon. Assume g=10m//s^(2) . Neglect air resistance. The altitude of the collosion above ground level is

A mass of ideal gas at pressure P is expanded isothermally to four times the originl volume and then slowly compressed adiabatically to its original volume. Assuming gamma to be 1.5 , the new pressure of the gas is

A conducting bolloon of the radius a is charged to potential V_(0) and held at a large height above the earth ensures that charge distribution on the surface of the balloon remains unaffected by the presence of the earth. It is connected to the earth through a resistance R and a value in the balloon is opened . The gas inside the balloon escapes from value and the size of the balloon decreases. The rate of decrease in radius of the balloon is controlled in such a manner that potential of the balloon remains constant. Assume the electric permittivity of the surrounding air equals to that of free space (epsilon_(0)) and charge cannot leak to the surrounding air. The rate at which radius r of the balloon changes with time is best represented by the equation

Four moles of an ideal gas at a pressure of 4 atm and at a temperature of 70^(@)C expands is othermally to four times its initial volume : What is (i) the final temperature and (ii) the final volume ?

In taking a solid ball of rubber from the surface to the bottom of a lake of 180 m depth, reduction in the volume of the ball is 0.01 % . The density of water of the lake is 1xx10^(3) kg//m^(3) . Determine the value of the bulk modulus of elasticity of rubber . (g = 9.8 m//s^(2))

A sample of an ideal gas has pressure p_(0) , volume V_(0) and tempreture T_(0) . It is isothermally expanded to twice its oringinal volume.it is then compressed at constant pressure to have the original volume V_(0) . Finally, the gas is heated at constant volume to get the original tempreture.(a) show the process in a V-T diagram (b) calculate the heat absorbed in the process.

A balloon which is initially collapsed and flat is slowly filled with a gas at 100 kPa so as to form it into a sphere of 1 m radius.The work done by the gas in the balloon during the filling process is