Presentation is loading. Please wait.

Presentation is loading. Please wait.

13.5 – NOTES Boyle’s and Charles Law

Published byStanley Cook Modified over 6 years ago

Similar presentations

Presentation on theme: "13.5 – NOTES Boyle’s and Charles Law"— Presentation transcript:

1 13.5 – NOTES Boyle’s and Charles Law

2 Complete the questions in A
Complete the questions in A.9 at the beginning of the notes with your partner!

3 Explain the following observations:
Even if they have ample supplies of oxygen gas, airplane passengers experience discomfort when the cabin undergoes a drop in air pressure. When air pressure decreases, gases in the lungs, stomach and sinuses expand, creating discomfort. New tennis balls are sold in pressurized containers. Tennis ball have an internal pressure greater than atmospheric pressure to give bounce. Cans create the same pressure so gas doesn’t leak out. After descending from a high mountain, the capped, half-filled plastic water bottle from which your drank while standing at the summit now appears dented or slightly crushed. Pressure outside the bottle increases as you descend, crushing the bottle.

4 A.8 Pressure-Volume Behavior of Gases
If you increase pressure, the volume decreases Boyle’s Law P1V1=P2V2 Inversely proportional

5

6 Example: A sample of oxygen gas occupies a volume of 250 ml at 1 atm of pressure. If the pressure increases to 1.2 atm, what is the new volume?

7 A.10 Exploring Temperature-Volume Relationships
Matter expands when heated V1/T1 = V2/T2 or V1T2 = V2T1

8 Kelvin temperature scale
SI unit of temperature The advantage of the Kelvin scale is that it has no value for 0 degrees, and there are no negative numbers. Must be used when doing any calculation with temperature Absolute zero Lowest temperature theoretically possible 0K = -273°C K = °C +273 Molecular Motion Stops here

9 STP – standard temperature and pressure
1 atm and 0°C You will need to convert the temperature from Celsius to Kelvin if these conditions are used in the a problem. 273K = standard temperature in equations 1 atm = kPa = 760 mmHg

10 A.11 Temperature-Volume Behavior of Gases
As temperature increases, the volume will increase when the pressure is constant Linear relationship/directly proportional Charles’ law V1/T1 = V2/T2 or V1T2 = V2T1 Volume and Temperature change when pressure is constant THE TEMPERATURE MUST BE IN KELVINS

11

12 Example: If helium occupies a volume of 3
Example: If helium occupies a volume of 3.8 L at 228 K, what volume will it occupy at 318K?

13 Example: A sample of chlorine occupies a volume of 2 L at 25 C
Example: A sample of chlorine occupies a volume of 2 L at 25 C. What will the temperature be if the volume expands to 4 L?

Download ppt "13.5 – NOTES Boyle’s and Charles Law"

Similar presentations

 A “model” is an approximation that attempts to explain observable behavior, allows for future predictions in experimentation.  Based on behavior of.

 A “model” is an approximation that attempts to explain observable behavior, allows for future predictions in experimentation.  Based on behavior of.
How can we calculate Pressure, Volume and Temperature of our airbag?

How can we calculate Pressure, Volume and Temperature of our airbag?
Experiment to develop the relationship between the pressure and volume of a gas.

Experiment to develop the relationship between the pressure and volume of a gas.
Experiment to develop the relationship between the pressure and volume of a gas. Include: Boyle’s Law Experiment to develop the relationship between the.

Experiment to develop the relationship between the pressure and volume of a gas. Include: Boyle’s Law Experiment to develop the relationship between the.
LECTURE 6.2 – TEMPERATURE SCALES. Today’s Learning Targets LT 5.3 – I can define what STP is on an exit ticket LT 5.4 – I can discuss how the kinetic.

LECTURE 6.2 – TEMPERATURE SCALES. Today’s Learning Targets LT 5.3 – I can define what STP is on an exit ticket LT 5.4 – I can discuss how the kinetic.
Chapter 11 Behavior of Gases. Warm-up #1 How much force do you think it would take to crush this railroad tank car? Stay tuned.

Chapter 11 Behavior of Gases. Warm-up #1 How much force do you think it would take to crush this railroad tank car? Stay tuned.
Unit 4 Sections A7-A9 In which you will learn about:

Unit 4 Sections A7-A9 In which you will learn about:
Catalyst 1. How is pressure created? 2. Give 3 units that pressure is measured with 3. How does the motion of gas molecules explain diffusion? End.

Catalyst 1. How is pressure created? 2. Give 3 units that pressure is measured with 3. How does the motion of gas molecules explain diffusion? End.
CHEMISTRY April 17 th, 2012. Brainteaser FRIDAY 4/20/12 Tell me how your are going to explain what happened in your experiment and WHY it happened to.

CHEMISTRY April 17 th, Brainteaser FRIDAY 4/20/12 Tell me how your are going to explain what happened in your experiment and WHY it happened to.
Gas Laws.

Gas Laws.
The Gas Laws. Units- are used to identify each variable Volume- mL, L, cm 3 Temperature- if given in °C convert to Kelvin- K Pressure- atm, torr, mmHg,

The Gas Laws. Units- are used to identify each variable Volume- mL, L, cm 3 Temperature- if given in °C convert to Kelvin- K Pressure- atm, torr, mmHg,
Combined Gas Law The pressure and volume of a gas are inversely proportional to each other, but directly proportional to the temperature of that gas. Table.

Combined Gas Law The pressure and volume of a gas are inversely proportional to each other, but directly proportional to the temperature of that gas. Table.
3 basic gas laws. Volume – refers to the space matter (gas) occupies. Measured in liters (L). Pressure – the number of times particles collide with each.

3 basic gas laws. Volume – refers to the space matter (gas) occupies. Measured in liters (L). Pressure – the number of times particles collide with each.
1 Gas Laws. STP 2 Standard Temperature and Pressure 0°C and 1 atm.

1 Gas Laws. STP 2 Standard Temperature and Pressure 0°C and 1 atm.
Gas pressure is due to the force of gaseous particles colliding with their container. Torricelli invented the barometer to measure atmospheric pressure.

Gas pressure is due to the force of gaseous particles colliding with their container. Torricelli invented the barometer to measure atmospheric pressure.
Boyle’s Law Mathematical relationship between pressure and volume.

Boyle’s Law Mathematical relationship between pressure and volume.
PRACTICE AND REVIEW GAS LAWS. STUDENT LEARNING OBJECTIVES 1.Define pressure. Identify units of pressure and make conversions between appropriate pressure.

PRACTICE AND REVIEW GAS LAWS. STUDENT LEARNING OBJECTIVES 1.Define pressure. Identify units of pressure and make conversions between appropriate pressure.
Math Review 1.Solve for x:2x - 3 = 1 7x + 2 = 4 4.

Math Review 1.Solve for x:2x - 3 = 1 7x + 2 = 4 4.
Gas Laws A series of equations that describe the behavior of a sample of gas.

Gas Laws A series of equations that describe the behavior of a sample of gas.
GAS LAWS. CHARLES'S LAW Jacques Charles Invented hydrogen balloon Collected data on the relationship between the temperature and volume of gases.

GAS LAWS. CHARLES'S LAW Jacques Charles Invented hydrogen balloon Collected data on the relationship between the temperature and volume of gases.

Similar presentations

Ads by Google