Download presentation
Presentation is loading. Please wait.
Published byGodfrey Rogers Modified over 8 years ago
1
Gas Laws Chapters 13.1 + 14
2
Review Temperature Average kinetic energy Pressure Collisions of gas particles between each other and container walls Volume Amount of space
3
Ideal Gas Don’t exist Model to explain behavior of all gases
4
Kinetic Molecular Theory The particles in a gas are constantly moving in rapid, random, straight-line motion. Gas particles have no volume compared to the volume of the gas. No attraction between particles All collisions are completely elastic
5
Gas Laws Boyle’s Law Charles’s Law Gay-Lussac’s Law Combined Gas Law Avogadro’s Law Ideal Gas Law
6
Boyle’s Law Relationship between pressure and volume Constant Temperature and amount of gas Mathematical relationships As pressure is increasing, volume is decreasing As pressure is decreasing, volume is increasing
7
Boyle’s Law V P
8
PV = constant Temperature remains constant
9
Example A 40 L sample of gas at 1atm of pressure is compressed to 10 L. What is the new pressure of the gas? P 1 V 1 = P 2 V 2 (1atm)(40L) = P 2 (10L) P 2 = 4 atm
10
Example The pressure of a 25 L sample is changed from 2 atm to 0.4 atm. What is the new volume of the gas? P 1 V 1 = P 2 V 2 (2atm)(25L) = (0.4atm)V 2 V 2 = 125 L
12
Charles’s Law Relationship between volume and temperature Constant Pressure and amount of gas Mathematical relationships As temperature is increasing, volume is increasing As temperature is decreasing, volume is decreasing
13
Charles’s Law T V
14
V/T = constant Pressure remains constant Temperature must be in Kelvin
15
Example A 4L sample of gas at 300K is heated to 600K. What is the new volume?
16
Example A gas occupying 45L at 27°C is cooled until its volume is 15L. What is the new temperature of the gas?
18
Gay-Lussac's Law In the winter the tire sensors on my wife’s car beep, indicating that there is low pressure in the tires. Why? What factor is changing with the weather? What factor is responding to this change? Which factor(s) remain constant?
19
Gay-Lussac's Law Mathematical relationships As temperature increases, pressure increases As temperature decreases, pressure decreases
20
Gay-Lussac's Law T P
21
P/T = constant Volume remains constant (rigid container) and amount of gas Temperature must be in Kelvin
22
Example In a pressure cooker, a sample of gas at 1 atm and 300K is heated to 400K. What is the pressure at this temperature?
23
Example A sample of gas at 101.3 kPa and 27°C is heated until its pressure is 3.5atm. What is the new temperature?
25
Review Boyle’s Law Charles’s Law Gay-Lussac's Law
26
Question How often do only 2 properties of a gas change while the other remains constant? Rarely Need a gas law that incorporates all three properties (PTV) changing
27
Combined Gas Law Combines Boyle’s, Charles’s, and Gay- Lussac 's Laws together
28
Example A gas at 5atm is heated and compressed from 10L at 100K to 5L at 200K. What is the new pressure?
29
Example A gas at 2atm and 27°C occupies 10L of space. What is the new volume when it is cooled to STP?
30
Real Life
32
Review 1 mole of ANY gas occupies 22.4L of volume at STP
33
Avogadro’s Law Relationship between the amount of gas and the volume of the gas Mathematical relationships As the amount of gas increases, volume increases As the amount of gas decreases, volume decreases
34
Avogadro’s Law n V
35
V/n = constant Pressure and Temperature remains constant
36
Avogadro’s Law Equal volumes of gas at the same Temperature and Pressure have the same number of particles At the same temperature and pressure, which sample contains the same number of moles of particles as 1 liter of O 2 (g)? A. 1 L Ne(g) B. 0.5 L SO 2 (g) C. 2 L N 2 (g) D. 4 L H 2 O(g)
37
Review Boyle’s Law Charles’s Law Gay-Lussac’s Law Avogadro’s Law
38
All Together Now If we add Avogadro’s Law into the Combined Gas Law: Constant
39
Ideal Gas Law PV = nRT R = Universal Gas Constant Ideal Gases follow assumptions of the Kinetic Molecular Theory
40
Kinetic Theory of Gases The particles in a gas are constantly moving in rapid, random, straight-line motion. Gas particles have no volume compared to the volume of the gas. No attraction between particles All collisions are completely elastic
41
Ideal Gases When do real gases act most like an ideal gas? High Temperature Low Pressure When do real gases act least like an ideal gas? Low Temperature High Pressure
Similar presentations
© 2024 SlidePlayer.com. Inc.
All rights reserved.