One mole of an ideal gas undergoes a process `p=(p_(0))/(1+((V_(0))/(V))^(2))`. Here, `p_(0)` and `V_(0)` are constants. Change in temperature of the gas when volume is changed from `V=V_(0)` to `V=2V_(0)` is

One mole of a diatomic gas undergoes a process P = P_(0)//[1 + (V//V_(0))^(3)] where P_(0) and V_(0) are constant. The translational kinetic energy of the gas when V = V_(0) is given by

n moles of an ideal triatomic linear gas undergoes a process in which the temperature changes with volume as T=K_(1)V^(2) where K_(1) is a constant. Choose incorrect alternative.

n moles of an ideal triatomic linear gas undergoes a process in which the temperature changes with volume as T=K_(1)V^(2) where K_(1) is a constant. Choose incorrect alternative.

One mole of an ideal gas undergoes a process whose molar heat capacity is 4R and in which work done by gas for small change in temperature is given by the relation dW=2RdT, then the ratio (C_(P))/(C_(V)) is

One mole of an ideal monoatomic gas at temperature T_0 expands slowly according to the law p/V = constant. If the final temperature is 2T_0 , heat supplied to the gas is

n moles of an ideal triatomic linear gas undergoes a process in which the temperature changes with volume as 'T'= K_(1) V^(2) where k_(1) is a constant. Choose incorrect alternative.

Using the equation of power for an ideal transformer, prove (I_(p))/( I_(s)) = ( V_(s))/( V_(p)) = ( N_(s))/( N_(p))

Heart leaks into a vessel, containing one mole of an ideal monoatomic gas at a constant rate of (R )/(4)s^(-1) where R is universal gas constatant. It is observed that the gas expands at a constant rate (dV)/(dt) = (V_(0))/(400("second")) where V_(0) is intial volume. The inital temperature is given by T_(0)=40K . What will be final temperature of gas at time t = 400 s .

A monoatomic ideal gas of two moles is taken through a cyclic process starting from A as shown in figure. The volume ratios are (V_(B))/(V_(A))=2 and (V_(D))/(V_(A))=4 . If the temperature T_(A) at A is 27^(@)C , calculate: (a) The temperature of the gas at point B . (b) Heat absorbed or released by the gas in each process. (c) The total work done by the gas during complete cycle.

An ideal gas is subjected to a thermodynamic process PV^(2//5)=0.40 where P is in Pa and V is in m^(3) . What is the slope of the P-V curve with volume plotted against x-axis at V=1 m^(3) ?