![Ideal Gas Law PV = nRT re-arrange n V = P RT n = molar mass (g/mol) mol gas= mass gas (g) mass of sample V x molar mass = P RT = Ideal Gas Law PV = nRT re-arrange n V = P RT n = molar mass (g/mol) mol gas= mass gas (g) mass of sample V x molar mass = P RT =](https://slideplayer.com/8786373/26/images/slide_1.jpg)
Ideal Gas Law PV = nRT re-arrange n V = P RT n = molar mass (g/mol) mol gas= mass gas (g) mass of sample V x molar mass = P RT =
![If (P + a/V2) ( V-b) = RT, where P is pressure , V is volume , R is gas - Physics - Units And Measurements - 12987806 | Meritnation.com If (P + a/V2) ( V-b) = RT, where P is pressure , V is volume , R is gas - Physics - Units And Measurements - 12987806 | Meritnation.com](https://s3mn.mnimgs.com/img/shared/content_ck_images/ck_5b7860181d767.jpg)
If (P + a/V2) ( V-b) = RT, where P is pressure , V is volume , R is gas - Physics - Units And Measurements - 12987806 | Meritnation.com
The equation of state for real gas is given by (P+a/V2)(V b)=RT. The dimensions of the constant "a" and "b" ??
![Ideal Gas Law PV = nRT re-arrange n V = P RT n = molar mass (g/mol) mol gas= mass gas (g) mass of sample V x molar mass = P RT = Ideal Gas Law PV = nRT re-arrange n V = P RT n = molar mass (g/mol) mol gas= mass gas (g) mass of sample V x molar mass = P RT =](https://images.slideplayer.com/26/8786373/slides/slide_2.jpg)
Ideal Gas Law PV = nRT re-arrange n V = P RT n = molar mass (g/mol) mol gas= mass gas (g) mass of sample V x molar mass = P RT =
![The van der waals equation for a gas is (P + a/v2)(V-b) = RT where P = Pressure, V = - Physics - Units And Measurements - 2236057 | Meritnation.com The van der waals equation for a gas is (P + a/v2)(V-b) = RT where P = Pressure, V = - Physics - Units And Measurements - 2236057 | Meritnation.com](https://s3mn.mnimgs.com/img/shared/content_ck_images/ck_5b6fa7a7c65a8.png)
The van der waals equation for a gas is (P + a/v2)(V-b) = RT where P = Pressure, V = - Physics - Units And Measurements - 2236057 | Meritnation.com
![SOLVED: The van der Waals equation is: P + Wo) = b RT. Where; P = pressure (atm) n = number of moles (mol) R = ideal gas constant V = volume ( SOLVED: The van der Waals equation is: P + Wo) = b RT. Where; P = pressure (atm) n = number of moles (mol) R = ideal gas constant V = volume (](https://cdn.numerade.com/ask_images/561899a0714f45848b9e6b4e6cccb12f.jpg)
SOLVED: The van der Waals equation is: P + Wo) = b RT. Where; P = pressure (atm) n = number of moles (mol) R = ideal gas constant V = volume (
![Ideal Gas Law PV = nRT re-arrange n V = P RT n = molar mass (g/mol) mol gas= mass gas (g) mass of sample V x molar mass = P RT = Ideal Gas Law PV = nRT re-arrange n V = P RT n = molar mass (g/mol) mol gas= mass gas (g) mass of sample V x molar mass = P RT =](https://images.slideplayer.com/26/8786373/slides/slide_3.jpg)