p+a/v)(v b) =RT, p=pressure,v=volume,R,a,b are constant, T=absolute temperature. find dimension of a/b^2
![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)
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 ideal gas equation. Room temperature and pressure, RTP Limitations At RTP, 1 mol of gas molecules occupies 24.0 dm 3 Conditions are not always room. - ppt download The ideal gas equation. Room temperature and pressure, RTP Limitations At RTP, 1 mol of gas molecules occupies 24.0 dm 3 Conditions are not always room. - ppt download](https://images.slideplayer.com/27/9036131/slides/slide_3.jpg)
The ideal gas equation. Room temperature and pressure, RTP Limitations At RTP, 1 mol of gas molecules occupies 24.0 dm 3 Conditions are not always room. - ppt download
![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_11.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 =
![A gas obeys the equation of state P(V - b) = RT (The parameter b is a constant). The slope for an isochore will be: A gas obeys the equation of state P(V - b) = RT (The parameter b is a constant). The slope for an isochore will be:](https://haygot.s3.amazonaws.com/questions/163777_180635_ans_01123f5cc43d4427ac1c26628bdb8ffb.png)
A gas obeys the equation of state P(V - b) = RT (The parameter b is a constant). The slope for an isochore will be:
![1 TOPIC 7: GASES Contents Properties of Gases The Simple Gas Laws The Ideal Gas Equation Gases in Chemical Reactions Mixture of Gases Kinetic-Molecular. - ppt download 1 TOPIC 7: GASES Contents Properties of Gases The Simple Gas Laws The Ideal Gas Equation Gases in Chemical Reactions Mixture of Gases Kinetic-Molecular. - ppt download](https://images.slideplayer.com/23/6622500/slides/slide_20.jpg)
1 TOPIC 7: GASES Contents Properties of Gases The Simple Gas Laws The Ideal Gas Equation Gases in Chemical Reactions Mixture of Gases Kinetic-Molecular. - ppt download
![Ideal-Gas Equation The constant of proportionality is known as R, the gas constant. © 2009, Prentice-Hall, Inc. - ppt download Ideal-Gas Equation The constant of proportionality is known as R, the gas constant. © 2009, Prentice-Hall, Inc. - ppt download](https://slideplayer.com/slide/14479091/90/images/4/Densities+of+Gases+n+%EF%82%B4+%EF%81%8D+%3D+m+P%EF%81%8D+RT+m+V+%3D+We+know+that.jpg)
Ideal-Gas Equation The constant of proportionality is known as R, the gas constant. © 2009, Prentice-Hall, Inc. - ppt download
![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/95/16392634/big_thumb.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 =
![SOLVED: How can one determine the density of a gas from the ideal gas law equation? m By definition, P = m/V where P = density ; m = mass; V=volume. SOLVED: How can one determine the density of a gas from the ideal gas law equation? m By definition, P = m/V where P = density ; m = mass; V=volume.](https://cdn.numerade.com/ask_previews/300318a5-b89c-4ce7-b7b5-d89d6f74d58b_large.jpg)