Presentation is loading. Please wait.

Presentation is loading. Please wait.

Don’t worry… they’re a breeze!. Compressibility  How much the volume of matter decreases under pressure.  High for gases; low for solids and liquids.

Published byChester Small Modified over 9 years ago

Similar presentations

Presentation on theme: "Don’t worry… they’re a breeze!. Compressibility  How much the volume of matter decreases under pressure.  High for gases; low for solids and liquids."— Presentation transcript:

1 Don’t worry… they’re a breeze!

2 Compressibility  How much the volume of matter decreases under pressure.  High for gases; low for solids and liquids 1. Gases easily compressed because of the space between molecules/particles 2. The volume of a gas is large, but # of particles small.

3 B. Factors that Affect Gas Pressure  1. Amount of gas is related to gas pressure. Example: rigid container filled with helium. Volume of the gas is fixed, (size of the container does not change) Add more gas into the container  gas pressure increases! Add LOTS? If you exceed the strength of the container, it explodes! Remove gas from the container  gas pressure decreases

4 Example 2: Can of hair spray Why does it leave when you press the button? - The gas inside the can is at a higher pressure than the atmospheric pressure (the pressure the layers of our atmosphere puts on our earth), - Gas flows from areas of high pressure to areas of low pressure. - Press the button at the top of the can, the gas inside (high pressure) the can flows into the environment (low pressure), and carries with it droplets of hairspray / paint!

5 Factor 2: Volume  ↓ volume of a container, ↑ the pressure of the gas.  ↑ volume of the container, ↓ pressure the gas is under.  Example: sit on an exercise ball. Your weight “smashes” the ball, exerting pressure on the gas within. Deep sea fish die when they’re brought to the surface of the water: ○ Evolved to withstand high pressure from all the water that “sits” on them at the bottom of the ocean. ○ As they rise to the surface, the water pressure decreases (since there is less water “sitting” on them near the surface). ○ The gasses in their bodies expand and cause their bladders and vessels to explode, killing the fish. 

6 Factor 3: Temperature  ↑ in temperature will ↑ kinetic energy of the molecules They move faster and collide with each other with more force. ↑ the pressure the gas is under. ↑ the volume of the gas, (gas molecules spread out more)  Example: If you leave a bag of chips in a warm spot, the gas inside the bag expands from an increase in temperature, causing the bag to puff up.

7

8 Law vs. Theory?  Theory: Well-tested explanation for a broad set of observations  Law: Statement that summarizes the results of many observations and experiments Doesn’t explain the relationship it describes

9 Boyle’s Law  P 1 V 1 = P 2 V 2  Temperature Constant  As pressure decreases, volume increases

10 Charles’ Law  V 1 /T 1 = V 2 /T 2  Pressure Constant  As temperature increases, volume increases

11 Gay-Lussac’s Law  P 1 / T 1 = P 2 / T 2  Volume is constant  As temperature increases, pressure increases

12 Combined Gas Law  P 1 V 1 / T 1 = P 2 V 2 / T 2  Only the amount of a gas is constant

13  To do gas laws calculations, the temperature must always be in Kelvins.  Temp in Kelvin = the temp in ⁰ C + 273 = temp in K

Download ppt "Don’t worry… they’re a breeze!. Compressibility  How much the volume of matter decreases under pressure.  High for gases; low for solids and liquids."

Similar presentations

Thermodynamics.

Thermodynamics.
The Behavior of Gases Chapter 14.

The Behavior of Gases Chapter 14.
Chapter 14 Gases. Gas Pressure – The SI unit of pressure is the pascal (Pa). – One standard atmosphere (atm) is the pressure required to support 760 mm.

Chapter 14 Gases. Gas Pressure – The SI unit of pressure is the pascal (Pa). – One standard atmosphere (atm) is the pressure required to support 760 mm.
“The Behavior of Gases” Original slides by Stephen L. Cotton.

“The Behavior of Gases” Original slides by Stephen L. Cotton.
Gas Laws Summary. States of Matter & Kinetic Energy Low KEHigh KE.

Gas Laws Summary. States of Matter & Kinetic Energy Low KEHigh KE.
Three States of Matter Chapter 3 Section 1.

Three States of Matter Chapter 3 Section 1.
BEHAVIOR OF GASES. Circumference of balloon. Suppose you are watching a parade that you have been looking forward to for weeks. You may be fascinated.

BEHAVIOR OF GASES. Circumference of balloon. Suppose you are watching a parade that you have been looking forward to for weeks. You may be fascinated.
Compressibility Gases are easily compressed because of the space between the particles in a gas. The distance between particles in a gas is much greater.

Compressibility Gases are easily compressed because of the space between the particles in a gas. The distance between particles in a gas is much greater.
Chapter 14.  In organized soccer, a ball that is properly inflated will rebound faster and travel farther than a ball that is under- inflated. If the.

Chapter 14.  In organized soccer, a ball that is properly inflated will rebound faster and travel farther than a ball that is under- inflated. If the.
14.1 The Gas Laws > 1 Copyright © Pearson Education, Inc., or its affiliates. All Rights Reserved. Chapter 14 The Behavior of Gases 14.1 Properties of.

14.1 The Gas Laws > 1 Copyright © Pearson Education, Inc., or its affiliates. All Rights Reserved. Chapter 14 The Behavior of Gases 14.1 Properties of.
CHAPTER 14 THE BEHAVIOR OF GASES:

CHAPTER 14 THE BEHAVIOR OF GASES:
Matter Chapter 2.

Matter Chapter 2.
GAS LAWS. Behavior of Gases Gases can expand to fill their container Gases can be compressed –Because of the space between gas particles Compressibility:

GAS LAWS. Behavior of Gases Gases can expand to fill their container Gases can be compressed –Because of the space between gas particles Compressibility:
Chemistry 14.1. Properties of Gases In organized soccer, a ball that is properly inflated will rebound faster and travel farther than a ball that is under-inflated.

Chemistry Properties of Gases In organized soccer, a ball that is properly inflated will rebound faster and travel farther than a ball that is under-inflated.
1 Gases Chapter 12. 2 Properties of Gases Expand to completely fill their container Take the Shape of their container Low Density –much less than solid.

1 Gases Chapter Properties of Gases Expand to completely fill their container Take the Shape of their container Low Density –much less than solid.
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.
Gas Behavior Lesson 3, Chapter 2.

Gas Behavior Lesson 3, Chapter 2.
Slide 1 of 21 © Copyright Pearson Prentice Hall Properties of Gases > 14.1 Compressibility ____________________ is a measure of how much the _____________.

Slide 1 of 21 © Copyright Pearson Prentice Hall Properties of Gases > 14.1 Compressibility ____________________ is a measure of how much the _____________.
Gas Laws.

Gas Laws.

Similar presentations

Ads by Google