Home
Class 11
PHYSICS
For a moles of gas ,Van der Weals equat...

For a moles of gas ,Van der Weals equation is `(p = (a)/(V^(-2))) (V - b) = nRT`ltbr. Find the dimensions of a `a and b `, where `p = pressure` of gas` ,V = volume` of gas and` T = temperature of gas` .

Promotional Banner

Similar Questions

Explore conceptually related problems

The van der Waal equation of gas is (P + (n^(2)a)/(V^(2))) (V - nb) = nRT

The van der Waal equation of gas is (P + (n^(2)a)/(V^(2))) (V - nb) = nRT

In Vander Wall's equation (P +(a)/(V^2))(V - b) = RT What are the dimensions of a and b ? Here, P is pressure, V is volume, T is temperature and R is gas constant.

In van der Waals' equation (P + (a)(V^2) (V - b) = RT, what are the dimesions of a and b? Here, P is pressure, V is volume, T is temperature and R is gas constant.

In van der Waal's gas equation: [p + a/(v^2) ] (V-b) = RT ,Calculate the dimensions of van der Waal's constant a.

In the formula , p = (nRT)/(V-b) e ^(a/(RTV)) find the dimensions of a and b, where p = pressure , n= number of moles , T = temperture , V = volume and R = universal gas constant .

In the formula , p = (nRT)/(V-b) e ^(a)/(RTV) find the dimensions of a and b, where p = pressure , n= number of moles , T = temperture , V = volume and E = universal gas constant .

In the formula P=(nRT)/(V-b)e^(-a/(RTV)) . Find the dimensions of a and b where P= pressure, n= number of moles. T= temperature, V= volume and R= universal gas constant.

In the formula P=(nRT)/(V-b)e^(-a/(RTV)) . Find the dimensions of a and b where P= pressure, n= number of moles. T= temperature, V= volume and R= universal gas constant.