The equation of state for a gas is given...

The equation of state for a gas is given by `PV = eta RT + alpha V`, where `eta` is the number of moles and `alpha` a positive constant. The intinal pressure and temperature of 1 mol of the gas contained in a cylinder is `P_(0)` and `T_(0)`, respectively. The work done by the gas when its temperature doubles isobarically will be

Similar Questions

Explore conceptually related problems

For an ideal gas, number of moles per litre in terms of its pressure P, gas constant R and temperature T is

The equation of a state of a real gas is given by (P + (a)/(V^(2))) (V - b) = RT , where T is absolute temperature, P is pressure, V is volume and R is universal gas constant. What are the dimensions of constant a and b ?

Temperature of two moles of an ideal gas is increased by 300K in a process V=a/T , where a is positive constant. Find work done by the gas in the given process.

One mole of an ideal gas at temperature T_ expands slowly according to the law p/V= constant. Its final temperature is T_2 . The work done by the gas is

The equation of state of a real gas is given by (P+a/V^(2)) (V-b)=RT where P, V and T are pressure, volume and temperature resperature and R is the universal gas constant. The dimensions of the constant a in the above equation is

Ten moles of a diatomic perfect gas are allowed to expand at constant pressure. The initial volume and temperature are V_0 and T_0 respectively. If 7/2RT_0 heat is transferred to the gas, then the final volume and temperature are

10 mol of a gas is heated at constant pressure to raise its temperature by 1^(@) C. The work done in joules is

One mole of a gas is heated at constant pressure to raise its temperature by 1^(@)C . The work done in joules is

Similar Questions

Recommended Questions