Presentation is loading. Please wait.

Presentation is loading. Please wait.

Ideal Gas Law. For every problem we have done, we also could have used the ideal gas law. On the test, you will have to do a couple of problems with the.

Published byAnis Garrett Modified over 8 years ago

Similar presentations

Presentation on theme: "Ideal Gas Law. For every problem we have done, we also could have used the ideal gas law. On the test, you will have to do a couple of problems with the."— Presentation transcript:

1 Ideal Gas Law

2 For every problem we have done, we also could have used the ideal gas law. On the test, you will have to do a couple of problems with the combined gas law, some with the ideal gas law and then you will be able to choose which you want to use.

3 Ideal gas law can be derived from the combined gas law n (22.4) = Volume of any gas at STP (n is the number of moles) plug this into combined gas law for initial state. PV/T = PV/T (using kPa for pressure) PV/T = (101.2 kPa) (n 22.414 L) / 273 K PV = n (8.31 kPaL/K mol) T 8.31 kPaL/K mol is the ideal gas constant for these units. It is abbreviated “R”

4 The equation PV = nRT *R can also be.0821 atm L/K mol The units of R must match the other units in the problem. If you are using 8.31 kPaL/K mol, your units are: kPa(L) = mol (8.31 kPaL/K mol) K

5 Converting pressures Use the standard pressures as a conversion factor 1.00 atm = 101 kPa = 760. torr convert 135 kPa to atm 135 kPa x 1 atm / 101 kPa = 1.34 atm convert 768 torr to kPa 768 torr x 101 kPa / 760 torr = 102 kPa

6 Using the ideal gas law What volume will.76 mol of a gas occupy at.82 atm and 264 K?.82 atm x 101kPa / 1.00 atm = 82.82 kPa PV = nRT 82.82kPa V = 0.76 mol (8.31 kPaL/K mol )264 K V = 20. L

7 Ideal Gas Law Problem If a gas occupies 14 L at 135 kPa and 285 K, what volume will it occupy at STP? 135 kPa (14 L) = n 8.31 kPaL/K mol (285 K) n =.798 mol.798 mol x 22.4 L / 1 mol = 18 L

8 or you can also take the.798 mol and plug it back into PV = nRT (you would have to do this if you were not going to STP) 101 kPa V= (.798 mol) 8.31 (273 K) V = 18 L (still)

9 Another Problem What volume will.34 mol of a gas occupy at 634 torr and 15 o C? 15 + 273 = 288 K 634 torr x 101kPa / 760 torr= 84.255kPa PV = nRT 84.255 kPa V = 0.34 mol (8.31 kPaL/K mol )288 K V = 9.7 L

10 Homework Problem If a gas occupies 34 L at 115 kPa and 290 K, what volume will it occupy at STP? solve for n then use Avagadro’s law to determine its volume at STP You MUST use the IDEAL GAS LAW not the combined gas law to receive credit for this problem

Download ppt "Ideal Gas Law. For every problem we have done, we also could have used the ideal gas law. On the test, you will have to do a couple of problems with the."

Similar presentations

The Ideal Gas Law PV = nRT.

The Ideal Gas Law PV = nRT.
Ideal Gas Law. For every problem we have done, we also could have used the ideal gas law. On the test you will have to do a couple of problems with the.

Ideal Gas Law. For every problem we have done, we also could have used the ideal gas law. On the test you will have to do a couple of problems with the.
The Ideal Gas Law PV = nRT.

The Ideal Gas Law PV = nRT.
CHEMISTRY Wednesday/Thursday April 25 th -26 th, 2012.

CHEMISTRY Wednesday/Thursday April 25 th -26 th, 2012.
Ideal Gas Law & Gas Stoichiometry

Ideal Gas Law & Gas Stoichiometry
The Ideal Gas Law Section 11.3. Standard Molar Volume of a Gas Assume the gas is an ideal gas Standard molar volume of a gas: the volume occupied by one.

The Ideal Gas Law Section Standard Molar Volume of a Gas Assume the gas is an ideal gas Standard molar volume of a gas: the volume occupied by one.
Ideal Gas Law Perfect gas molecules. Ideal Gas Law For every problem we have done, we also could have used the ideal gas law. We could treat each gas.

Ideal Gas Law Perfect gas molecules. Ideal Gas Law For every problem we have done, we also could have used the ideal gas law. We could treat each gas.
I DEAL GAS LAW & R EAL GASES. I DEAL G AS L AW : Used when the amount of gas varies Can be used to calculate the number of moles of gas Needed in the.

I DEAL GAS LAW & R EAL GASES. I DEAL G AS L AW : Used when the amount of gas varies Can be used to calculate the number of moles of gas Needed in the.
Ideal Gas Law PV = nRT Brings together gas properties. Can be derived from experiment and theory.

Ideal Gas Law PV = nRT Brings together gas properties. Can be derived from experiment and theory.
Equal volumes of gases at the same T and P have the same number of molecules. V = kn V and n are directly related. twice as many molecules MOLEY… MOLEY…

Equal volumes of gases at the same T and P have the same number of molecules. V = kn V and n are directly related. twice as many molecules MOLEY… MOLEY…
NOTES: (Combined and Ideal Gas Laws)

NOTES: (Combined and Ideal Gas Laws)
Pressure Conversions 1 atm = x 105 Pa 1 bar = 1 x 105 Pa

Pressure Conversions 1 atm = x 105 Pa 1 bar = 1 x 105 Pa
The Combined and Ideal Gas Laws Honors Chemistry.

The Combined and Ideal Gas Laws Honors Chemistry.
Topic 10 Gases III. Ideal Gas Law.

Topic 10 Gases III. Ideal Gas Law.
Ideal Gas Law.

Ideal Gas Law.
Ideal Gas Law.

Ideal Gas Law.
Combined Gas Law The combined gas law combines Boyle’s Law and Charles’ Law.

Combined Gas Law The combined gas law combines Boyle’s Law and Charles’ Law.
Ideal Gas Law & Gas Stoichiometry

Ideal Gas Law & Gas Stoichiometry
Ideal Gas Law & Gas Stoichiometry. Avogadro’s Principle Equal volumes of gases contain equal numbers of moles at constant temp & pressure true for any.

Ideal Gas Law & Gas Stoichiometry. Avogadro’s Principle Equal volumes of gases contain equal numbers of moles at constant temp & pressure true for any.
IDEAL GAS LAW Brings together gas properties. Can be derived from experiment and theory. BE SURE YOU KNOW THIS EQUATION! P V = n R T.

IDEAL GAS LAW Brings together gas properties. Can be derived from experiment and theory. BE SURE YOU KNOW THIS EQUATION! P V = n R T.

Similar presentations

Ads by Google