Presentation is loading. Please wait.

Presentation is loading. Please wait.

Week 5 Lesson 3 Gas Pressure and Kinetic theory Model of Matter.

Published byRoy Nichols Modified over 8 years ago

Similar presentations

Presentation on theme: "Week 5 Lesson 3 Gas Pressure and Kinetic theory Model of Matter."— Presentation transcript:

1 Week 5 Lesson 3 Gas Pressure and Kinetic theory Model of Matter

2 Gas pressure The particle theory of a gas explains gas pressure in the following way: 1.Gas molecules in constant random motion. 2.When a molecule collides with a surface it exerts a force on the surface as it changes its direction. 3.The pressure exerted by the gas is equal to the total force in exerted by the molecules over an area of the surface divided by the area.

3 Boyle’s law Boyle’s law states that the pressure of a gas is inversely proportional to its volume. This means that if the volume of a gas is doubled its pressure will halve. Boyle’s law only applies for a gas if its mass and temperature is kept constant while the volume is being changed.

4 Mathematically Boyle’s law can be stated: p 1 x V 1 = p 2 x V 2 where: p 1 = initial gas pressure p 2 = final gas pressure V 1 = initial gas volume V 2 = final gas volume

5 Boyle’s law question A gas has an initial volume of 30 m 3 at atmospheric pressure (100 kPa). Calculate the final pressure of this gas if its volume is decreased to 10 m 3. Boyle’s law: p 1 x V 1 = p 2 x V 2 100 kPa x 30 m 3 = p 2 x 10 m 3 3 000k = 10 p 2 p 2 = 3 000k / 10 Final pressure = 300 kPa

6 Checking Boyle’s law experimentally Record the initial volume and pressure of the gas in the tube. Use the foot pump to decrease the volume of the gas in the tube. Record the new volume and pressure. Use the foot pump to obtain further sets of volume and pressure measurements.

7 Plot a graph of pressure, p (y-axis) against one divided by volume, 1 / V (x-axis). If this graph is a straight line through the origin then Boyle’s law is confirmed. Boyle’s law is also confirmed if each set of volume and pressure measurements give the same answer when they are multiplied together. That is: p x V = a constant pressure volume 1

8 Choose appropriate words to fill in the gaps below: A gas consists of particles called __________ that are in continual _________ motion. The pressure of a gas is caused by the _______ exerted by the molecules when they ________ and rebound off the surface experiencing the pressure. According to ________ law the pressure of a gas __________ by its volume is equal to a _________ number provided the _____________ of the gas does not change. constant forcecollidemolecules Boyle’s random WORD SELECTION: multipliedtemperature constant force collide molecules Boyle’s random multiplied temperature

9 This kelvin scale starts from absolute zero: 0 kelvin (0 K) = - 273 °C A change of one kelvin is the same as a change of one °C Therefore:0 °C (melting ice) = + 273 K 100 °C (boiling water) = + 373 K kelvin temperature = °C temperature + 273 Note: It is incorrect to write or say “degrees kelvin” The kelvin temperature scale

10 Gas pressure and temperature As temperature increases: molecules move quickly therefore exerting a greater force and so producing a greater pressure Hot gas Cold gas

11 Molecular kinetic energy As temperature increases the average speed and kinetic energy of the molecules increases. With an ideal gas: The average kinetic energy of the molecules is proportional to the kelvin temperature. TRIPLE ONLY

12 Question 1 The temperature of a gas is increased from - 123°C to 377 °C. What change occurs to the average kinetic energy of the gas molecules? TRIPLE ONLY initial gas temperature = -123°C = 150 K final gas temperature = 327°C = 600 K the kelvin temperature increases by 4 times therefore average kinetic energy increases by 4 times

13 Question 2 When the temperature of a gas is increased from 27°C the average speed of the molecules increases three fold. Calculate the final temperature of the gas. TRIPLE ONLY kinetic energy = ½ mv 2 If the speed, v increases by 3 times, the kinetic energy increases by 3 2, 9 times. and so the kelvin temperature increases by 9 times. initial temperature = 27°C = 300 K therefore final temperature = 9 x 300 K = 2700 K (or 2427 °C)

14 The Pressure Law The pressure law states that the pressure of a fixed mass of gas at a constant volume is proportional to its kelvin temperature. This means that if the kelvin temperature of a gas is doubled its pressure will also double. TRIPLE ONLY

15 Choose appropriate words to fill in the gaps below: When the _______ temperature of a gas is doubled the average _______ energy of its molecules is also doubled. The ________ law states that the pressure of a gas is ___________ to its kelvin temperature provided its ______ and volume remain constant. According to the pressure law, the pressure of a gas should fall to _______ at a temperature of _________, also known as absolute zero. - 273°Cpressureproportional kelvin masskinetic WORD SELECTION: zero - 273°C pressure proportional kelvin mass kinetic zero TRIPLE ONLY

Download ppt "Week 5 Lesson 3 Gas Pressure and Kinetic theory Model of Matter."

Similar presentations

EDEXCEL IGCSE / CERTIFICATE IN PHYSICS 5-2 Solids, Liquids and Gases

EDEXCEL IGCSE / CERTIFICATE IN PHYSICS 5-2 Solids, Liquids and Gases
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.
Unit 5: Gases – More Gas Laws: Charles’s Law and Boyle’s Law

Unit 5: Gases – More Gas Laws: Charles’s Law and Boyle’s Law
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.
Explanation Gas pressure is caused by collisions of gas molecules on the wall of the container. The molecule collide with one other , with the walls of.

Explanation Gas pressure is caused by collisions of gas molecules on the wall of the container. The molecule collide with one other , with the walls of.
OCTOBER 20 AIM: What is PRESSURE ? Atmospheric pressure Units Gas pressure.

OCTOBER 20 AIM: What is PRESSURE ? Atmospheric pressure Units Gas pressure.
3.2: The Gas Laws.

3.2: The Gas Laws.
Chapter 11 Preview Objectives

Chapter 11 Preview Objectives
States of Matter Chapter 10. Kinetic Theory Kinetic refers to motion. Kinetic refers to motion. Kinetic energy is the energy of a moving object. Kinetic.

States of Matter Chapter 10. Kinetic Theory Kinetic refers to motion. Kinetic refers to motion. Kinetic energy is the energy of a moving object. Kinetic.
Gases and Atmospheric Chemistry

Gases and Atmospheric Chemistry
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.
The Property of Gases – Kinetic Molecular Theory And Pressure.

The Property of Gases – Kinetic Molecular Theory And Pressure.
Kinetic Theory and Gases. Objectives Use kinetic theory to understand the concepts of temperature and gas pressure. Be able to use and convert between.

Kinetic Theory and Gases. Objectives Use kinetic theory to understand the concepts of temperature and gas pressure. Be able to use and convert between.
NOTES: Unit 4 - AIR Sections A1 – A8: Behavior of Gases and Gas Laws.

NOTES: Unit 4 - AIR Sections A1 – A8: Behavior of Gases and Gas Laws.
Kinetic Molecular Theory of Matter

Kinetic Molecular Theory of Matter
Constant-Volume Gas Thermometer

Constant-Volume Gas Thermometer
Chemistry 20 Chapter 3 PowerPoint presentation by R. Schultz

Chemistry 20 Chapter 3 PowerPoint presentation by R. Schultz
Copyright © by Holt, Rinehart and Winston. All rights reserved. ResourcesChapter menu Table of Contents Chapter 11 Gases Section 1 Gases and Pressure Section.

Copyright © by Holt, Rinehart and Winston. All rights reserved. ResourcesChapter menu Table of Contents Chapter 11 Gases Section 1 Gases and Pressure Section.
The Gas Laws A Tutorial on the Behavior of Gases..

The Gas Laws A Tutorial on the Behavior of Gases..
January 15 Agenda Do Now (10 mins) Pressure vs. Temperature (20 mins) Pressure Quick Demo (5 mins) Discuss Lab Tomorrow (15 mins) Exit Question (5 mins)

January 15 Agenda Do Now (10 mins) Pressure vs. Temperature (20 mins) Pressure Quick Demo (5 mins) Discuss Lab Tomorrow (15 mins) Exit Question (5 mins)

Similar presentations

Ads by Google