Presentation is loading. Please wait.

Presentation is loading. Please wait.

Section 14.1 The Gas Laws. Objectives State Boyle’s Law, Charles’s Law, and Gay- Lussac’s Law. Apply the three gas laws to problems involving the pressure,

Published byStuart Atkinson Modified over 8 years ago

Similar presentations

Presentation on theme: "Section 14.1 The Gas Laws. Objectives State Boyle’s Law, Charles’s Law, and Gay- Lussac’s Law. Apply the three gas laws to problems involving the pressure,"— Presentation transcript:

1 Section 14.1 The Gas Laws

2 Objectives State Boyle’s Law, Charles’s Law, and Gay- Lussac’s Law. Apply the three gas laws to problems involving the pressure, temperature, and volume of gases.

3 Key Terms Boyle’s Law Charles’s Law Gay-Lussac’s Law

4 Kinetic Theory assumptions Gas particles do not attract or repel each other Gas particles are much smaller than the distances between them Gas particles are in constant, random motion No kinetic energy lost when gas particles collide with each other/walls of container All gases have same average kinetic energy at given temperature

5 Boyle’s Law If volume of container increased, pressure decreases (T constant) Molecules go farther, impact walls less often P less because fewer molecule impacts If volume of container decreased, pressure increases (T constant) Gas molecules go shorter distance, striking walls more often Increased P because more molecule impacts Inverse relationship

6 Boyle’s Mathematical Equation PV=k (T constant) Any P x V will give K If P 1 V 1 = kAND P 2 V 2 = k P 1 V 1 = P 2 V 2

7

8 Practice Problem Page 422, 1-2

9 Charles’s Law TEMP must be in Kelvin and P must be constant!! If T of container is increased, V increases Molecules move faster, impact container walls more often Gas pressure inside container will increase If T of container is decreased, V decreases Direct mathematical relationship

10 Charles’s Mathematical Equation V/T = k (P constant) Any V/T will give k: If V 1 = k And V 2 = k T 1 T 2 V 1 = V 2 Or V 1 T 2 =T 1 V 2 T 1 T 2

11 6/11/201611 http://college.hmco.com/chemistry/shared/media/animations/microscopicillustrationofch.html

12 Practice Problems Page 425, 7-8

13 Gay-Lussac’s Law Temp MUST be in Kelvin and V is constant!! If T of container , P  Molecules move faster, impact container walls more often P inside container , container has rigid walls (V constant) If T of container , P  Direct mathematical relationship

14 Gay-Lussac's Mathematical Equation P/T = k (constant V) Any P = k T So P 1 = k And P 2 = k T 1 T 2 So P 1 = P 2 Or P 1 T 2 =P 2 T 1 T 1 T 2

15 Practice Problems Page 427, 9-10

Download ppt "Section 14.1 The Gas Laws. Objectives State Boyle’s Law, Charles’s Law, and Gay- Lussac’s Law. Apply the three gas laws to problems involving the pressure,"

Similar presentations

Boyle, Charles and Gay-Lussac

Boyle, Charles and Gay-Lussac
Number 1-4. Describe what is happening with the energy levels in the water cycle and any phase changes 1. 2. 3. 4. Gas to liquid Release energy snow Liquid.

Number 1-4. Describe what is happening with the energy levels in the water cycle and any phase changes Gas to liquid Release energy snow Liquid.
Kinetic Molecular Theory

Kinetic Molecular Theory
Gas Laws. CA Standards Students know how to apply the gas laws to relations between the pressure, temperature, and volume of any amount of an ideal gas.

Gas Laws. CA Standards Students know how to apply the gas laws to relations between the pressure, temperature, and volume of any amount of an ideal gas.
MythBusters: Fun With Gas : Video : Discovery Channel

MythBusters: Fun With Gas : Video : Discovery Channel
15 12.6 Skip 12.7 Laws and Models Laws, such as the ideal gas law, predict how a gas will behave, but not why it behaves so. A model (theory) explains.

Skip 12.7 Laws and Models Laws, such as the ideal gas law, predict how a gas will behave, but not why it behaves so. A model (theory) explains.
Notes 3-2 “The Gas Laws”. What is pressure? N/m 2 Pa KPa.

Notes 3-2 “The Gas Laws”. What is pressure? N/m 2 Pa KPa.
Kinetic Molecular Theory of Gases Gases consist of molecules that are constantly moving through space in strait lines, randomly, and with various speeds.

Kinetic Molecular Theory of Gases Gases consist of molecules that are constantly moving through space in strait lines, randomly, and with various speeds.
Gas Laws Summary. States of Matter & Kinetic Energy Low KEHigh KE.

Gas Laws Summary. States of Matter & Kinetic Energy Low KEHigh KE.
14.3 Essential Questions How does a gas exert pressure on its container? How is a gas affected when pressure, temperature, or volume change? Copyright.

14.3 Essential Questions How does a gas exert pressure on its container? How is a gas affected when pressure, temperature, or volume change? Copyright.
2-Variable Gas Laws. Kinetic-Molecular Theory 1. Gas particles do not attract or repel each other 2. Gas particles are much smaller than the distances.

2-Variable Gas Laws. Kinetic-Molecular Theory 1. Gas particles do not attract or repel each other 2. Gas particles are much smaller than the distances.
Gases. Gases - Concepts to Master What unit of measurement is used for temperature when solving gas law problems? Why? Summarize the Kinetic Molecular.

Gases. Gases - Concepts to Master What unit of measurement is used for temperature when solving gas law problems? Why? Summarize the Kinetic Molecular.
OCTOBER 20 AIM: What is PRESSURE ? Atmospheric pressure Units Gas pressure.

OCTOBER 20 AIM: What is PRESSURE ? Atmospheric pressure Units Gas pressure.
Gases Chapter 14. 14.1 The Gas Laws: Kinetic Molecular Theory (Chapter 13): gases typically behave in a way that allows us to make assumptions in order.

Gases Chapter The Gas Laws: Kinetic Molecular Theory (Chapter 13): gases typically behave in a way that allows us to make assumptions in order.
Aim: What are the properties of Gases?. Compressibility Compressibility is measure of how much volume decreases under increased pressure. Gases are easily.

Aim: What are the properties of Gases?. Compressibility Compressibility is measure of how much volume decreases under increased pressure. Gases are easily.
Compressibility Compressibility is a measure of how much the volume of matter decreases under pressure.

Compressibility Compressibility is a measure of how much the volume of matter decreases under pressure.
Kinetic-Molecular Theory Describes the behavior of an “ideal” gas in terms of particle size, motion, and energy based on 5 assumptions…

Kinetic-Molecular Theory Describes the behavior of an “ideal” gas in terms of particle size, motion, and energy based on 5 assumptions…
The Gas Laws Section 14.1 Objectives: 7.0 Explain the behavior of ideal gases in terms of pressure, volume, and temperature using Charles's law, Boyle's.

The Gas Laws Section 14.1 Objectives: 7.0 Explain the behavior of ideal gases in terms of pressure, volume, and temperature using Charles's law, Boyle's.
Gas Laws Chapter 14 (last one!!) Kinetic Molecular Theory helps explain why gases behave differently than solids and liquids Gases…. 1. Gas particles do.

Gas Laws Chapter 14 (last one!!) Kinetic Molecular Theory helps explain why gases behave differently than solids and liquids Gases…. 1. Gas particles do.
Gas Laws Problems Boyle’s Law Charle’s Law Gay-Lussac’s Law.

Gas Laws Problems Boyle’s Law Charle’s Law Gay-Lussac’s Law.

Similar presentations

Ads by Google