Presentation is loading. Please wait.

Presentation is loading. Please wait.

Chapter 16, Section 3 Behavior of Gases

Published byLoreen Morrison Modified over 8 years ago

Similar presentations

Presentation on theme: "Chapter 16, Section 3 Behavior of Gases"— Presentation transcript:

1 Chapter 16, Section 3 Behavior of Gases
Created by Izabella Mingolla, Aden Rusch, Drew Turk, Jackie Robinson, Kaitlyn Ayral, Melissa Besanceney, and Taly Sterle

2 Introduction Often, gases are confined in containers. When gas is confined within a container, the air particles will collide against the walls. These collisions push the walls outward. If more air is pumped into the balloon, the amount of air particles will increase, collisions occur more often, and so the balloon expands. For a tire, it works a bit differently because it is not as elastic as a balloon. So, because it can not expand very much, its pressure increases.

3 Pressure Often, gases are confined in containers that can be any shape or size. Pressure is measured in pascals. Pascal= 1N/m2 Most pressures so small are referred to in kilopascals or kPa.

4 Boyle’s Law If you decrease the volume of a container full of gas, then the pressure increases. The opposite is also true. If you increase the volume of the container of gas, then the pressure will decrease.

5 Boyle’s Law in Action Decreasing the size of the container in which the gas is held will, in turn, increase the amount of pressure in the container. Take for instance, a balloon. Decreasing the size of the balloon creates more pressure, thus forcing more air out. Volume/Pressure Equation: P1V1 = P2V2

6 Pressure-Temperature Relationship
If you heat an enclosed gas, the particles of the gas will strike the walls of the canister more often. If the canister is rigid, its volume cannot increase. Therefore, its pressure increases. If the pressure becomes greater than the canister can hold, it will explode! At a constant volume, an increase in temperature results in an increase in pressure.

7 Charles’s Law The volume of a gas increases with the increase of temperature, as long as there is no change in pressure. The opposite is also true. If the temperature decreases, so will the volume.

8 The Kinetic Theory of Matter
When a gas is heated, the speed of the particles increases and the temperature increases. Because the particles move faster, they strike the walls of their container with more force and more often. If the container has no room to expand, the pressure goes up. If it can expand, then the volume will increase.

9 Using Charles’s Law If a balloon was outside with the sun bearing heat down on the balloon, the balloon would increase in volume. If you also exposed a balloon to extreme cold, like putting it in your freezer, the balloon would decrease in volume.

10 The end! :) Thanks for watching!

Download ppt "Chapter 16, Section 3 Behavior of Gases"

Similar presentations

The Properties of Gases

The Properties of Gases
Pressure in Gases (Ideal Gases) Objectives (a) state Boyle’s law.

Pressure in Gases (Ideal Gases) Objectives (a) state Boyle’s law.
Chapter 11: Behavior of Gases

Chapter 11: Behavior of Gases
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.
Behavior of Gases. Gas particles are in constant motion Collisions of these particles in the air causes pressure Pressure = force per unit of area or.

Behavior of Gases. Gas particles are in constant motion Collisions of these particles in the air causes pressure Pressure = force per unit of area or.
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.
Pressure Section 16.3. The Atmosphere Gases in the atmosphere-oxygen, argon, carbon dioxide, nitrogen, hydrogen, water vapor, some other elements Gravity.

Pressure Section The Atmosphere Gases in the atmosphere-oxygen, argon, carbon dioxide, nitrogen, hydrogen, water vapor, some other elements Gravity.
The Gas Laws Section 3.2.  What happens to your lungs when you take a deep breath?

The Gas Laws Section 3.2.  What happens to your lungs when you take a deep breath?
Gas Behavior Lesson 3, Chapter 2.

Gas Behavior Lesson 3, Chapter 2.
Pressure – Volume Relationship A4 – A8. Pressure Force applied to one unit of surface area Pressure = Force Area.

Pressure – Volume Relationship A4 – A8. Pressure Force applied to one unit of surface area Pressure = Force Area.
Gas Laws Studies of the behavior of gases played a major role in the development of physical sciences in the 7 th and 8 th centuries.

Gas Laws Studies of the behavior of gases played a major role in the development of physical sciences in the 7 th and 8 th centuries.
Chapter 16 Section 3. Pressure What did we learn about gas particles from the kinetic theory? –They are constantly moving and colliding with anything.

Chapter 16 Section 3. Pressure What did we learn about gas particles from the kinetic theory? –They are constantly moving and colliding with anything.
The Behavior of Gases Kinetic Theory - “kinetic” = motion - kinetic energy – the energy an object has due to motion - kinetic theory – states that the.

The Behavior of Gases Kinetic Theory - “kinetic” = motion - kinetic energy – the energy an object has due to motion - kinetic theory – states that the.
Chapter 3 Section 3 Notes.

Chapter 3 Section 3 Notes.
Behavior of Gases.

Behavior of Gases.
Properties of Fluids 16.2 How do ships float?

Properties of Fluids 16.2 How do ships float?
Ch. 16 Sect. 3: Behaviors of Gases & Gas Laws BOYLE’S LAW & CHARLES’ LAW.

Ch. 16 Sect. 3: Behaviors of Gases & Gas Laws BOYLE’S LAW & CHARLES’ LAW.
Chapter 3 Sec. 2 The Gas Laws. Force distributed over an area (Newton / meter 2 ) Units: N/m 2 or Pascal (Pa) More collisions and greater speed of gas.

Chapter 3 Sec. 2 The Gas Laws. Force distributed over an area (Newton / meter 2 ) Units: N/m 2 or Pascal (Pa) More collisions and greater speed of gas.
Chapter 12 Gas Laws and Behavior of Gases. CA Standards 4c. Students know how to apply the gas laws to relations between the pressure, temperature, and.

Chapter 12 Gas Laws and Behavior of Gases. CA Standards 4c. Students know how to apply the gas laws to relations between the pressure, temperature, and.
Chapter 3 States of Matter

Chapter 3 States of Matter

Similar presentations

Ads by Google