On heating ozone, its volume.

It is found that on heating a gas its volume increases by 50% and its pressure decreases to 60% of its original value. If the original temperature was -15^@C , find the temperature to which it was heated.

On heating a body, its temperature.........

At what temperature 25 dm ^3 of oxygen at 283 K is heated to make its volume 30 dm^3 ?

One mole of an ideal monoatomic gas undergoes the process T=T_(0)+4V , where T_(0) is initial temperature. Find (i) Heat capacity of gas as function of its volume. (ii) The amount of heat transferred to gas if its volume increases from V_(0) to 4V_(0) .

Two moles of a gas at temperature T and volume V are heated to twice its volume at constant pressure. If (C _(p))/(C _(v)) = gamma then increase in internal energy of the gas is-

On reaction of ozone with hydrogen peroxide if we start with one volume of ozone. How many volumes of oxygen will form?

At 18^@C , the volume occupied by the gas is 400 ml. To what temperature, it should be heated so that its volume gets doubled at constant pressure?

One mole of oxygen is heated at constant pressure starting at 0^(@)C . How much heat energy must be added to the gas to double its volume ?

A gas is initially at a pressure of 100 kPa and its volume is 2.0 m^(3) . Its pressure is kept constant and the volume is changed from 2.0 m^(3) to 2.5 m^(3) . Its volume is now kept constant and the pressure is increased from 100 kPa to 200 kPa . The gas is brought back to its initial state, the pressure varying linearly with its volume. (a) Whether the heat is supplied to or exerted from the gas in the complete cycle ? (b) How much heat was supplied or extracted ?

A gas is initially at a pressure of 100 kPa and its volume is 2.0 m^(3) . Its pressure is kept constant and the volume is changed from 2.0 m^(3) to 2.5^(3) . Its volume is now kept constant and the pressure is increased from 100 kPa to 200 kPa. The gas is brought back to its initial state, the pressure varying linearly with its volume. (a) whether the heat is supplied to or exterted from the gas in the complete cycle ? (b) how much heat was supplied or extracted ?