Find the maximum attainable temperature ...

Find the maximum attainable temperature of ideal gas in each of the following process :
(a) `p = p_0 - alpha V^2` ,
(b) `p = p_0 e^(- beta v)`,
where `p_0, alpha` and `beta` are positive constants, and `V` is the volume of one mole of gas.

Similar Questions

Explore conceptually related problems

Find the minimum attainable pressure of an ideal gas in the process T = T_(0) + alpha V^(2) , Where T_(0) and alpha are positive constant and V is the volume of one mole of gas. Draw the approximate T -V plot of this process.

Find the minimum attainable pressure of ideal gas in the process T = T_0 + alpha V^2 , where T_0 and alpha positive constants, and V is the volume of one mole of gas. Draw the approximate p vs V plot of this process.

find the minimum attainable pressure of an ideal gs in the process T = t_0 + prop V^2 , where T_(0)n and alpha are positive constants and (V) is the volume of one mole of gas.

One mole of an ideal gas undergoes a process P=P_(0)-alphaV^(2) where alpha and P_(0) are positive constant and V is the volume of one mole of gas Q. The maximum attainable temperature is

One mole of an ideal gas undergoes a process P=P_(0)-alphaV^(2) where alpha and P_(0) are positive constant and V is the volume of one mole of gas Q. When temperature is maximum, volume is

Find the maximum attainable temperature of ideal gas in each of the following process : (a) `p = p_0 - alpha V^2` , (b) `p = p_0 e^(- beta v)`, where `p_0, alpha` and `beta` are positive constants, and `V` is the volume of one mole of gas.

Similar Questions

Recommended Questions

Find the maximum attainable temperature of ideal gas in each of the following process :
(a) `p = p_0 - alpha V^2` ,
(b) `p = p_0 e^(- beta v)`,
where `p_0, alpha` and `beta` are positive constants, and `V` is the volume of one mole of gas.