Along the line - 1, mass of gas `m_(1)` and pressure is `p_(1)`. Along the line - 2 mass of same gas is `m_(2)` and pressure is `p_(2)`. Choose the correct options.
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If a gas of a volume V_(1) at pressure p_(1) is compressed adiabatically to volume V_(2) and pressure p_(2) , calculate the work done by the gas.

If P, V, and d are the pressure, Volumne and density of a given mass of gas at constant temperature, choose the correct option.

The molecules of a given mass of gas have an rms velocity of 200 ms(-1) at 27^@C and pressure 1 atm. When the temperature is 127^@C and pressure is 2 atm, the rms velocity in m s^(-1) will be ?

A container of volume V_(1) has an ideal gas of molar mass M_(1) at pressure P_(1) and temperature T_(1) . Another container of volume V_(2) has another ideal gas of molar mass M_(2) at pres- sure P_(2) and temperature T_(2) . Two gases are mixed in a vessel and acquire an equilibrium temperature and pressure of T_(0) and P_(0) respectively. Find the density of the mixture.

An ideal gas occupies a volume of 2m^(3) at a pressure of 3xx10^(6) p,a the energy of the gas is :

The expansion of an ideal gas of mass m at a constant pressure P is given by the straight line B. Then the expansion of the same ideal gas of mass 2 m at a pressure 2P is given by the straight line

A closed vessel of fixed volume contains a mass m of an ideal gas, the root mean square speed being v. Additional mass m of the same gas is pumped into the vessel and the pressure rises to 2P, the temperature remaining the same as before. The root mean square speed of the molecules now is :