VOLUME AND TEMPERATURE: CHARLES’S LAW 13.1: Pgs. 450 - 454.

Slides:

Advertisements

Similar presentations

C, 0 Kelvin Charles’s Law Absolute Zero C, 0 Kelvin Charles’s Law.

Advertisements

Chap 12.2 Gas laws.

Physical Characteristics of Gases

The Behavior of Gases Part 1. The Properties of Gases  Kinetic energy –  The energy due to motion  What does temperature measure?  The average kinetic.

Gas Laws Chapter 14. Properties of Gases  Gases are easily compressed because of the space between the particles in the gas.

P RE V IEW T O GAS LAWS. BOYLE’S LAW How are the Pressure and Volume of a gas related? COPYRIGHT © PEARSON EDUCATION, INC., OR ITS AFFILIATES. ALL RIGHTS.

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.

GAS LAWS. BOYLE’S LAW DEMO Bell Jar and Marshmallow -The marshmallow is getting bigger (expanding – volume increases). Why? -How do volume and pressure.

Gas LawsGas Laws  Describes the relationship between variables associated with gases  Volume (V)  Temperature (T)  Pressure (P)  Concentration/amount.

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.

Chapter 13 Gases.

Chapter 12 The Behavior of gases

3.2: The Gas Laws.

 The average kinetic energy (energy of motion ) is directly proportional to absolute temperature (Kelvin temperature) of a gas  Example  Average energy.

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.

The Gas Laws Learning about the special behavior of gases (section 12.3) Note Pack page 3, bottom Objective #1.

NOTES: 14.2 – Gas Laws. Pressure-Volume Relationship: (Boyle’s Law) ● Pressure and volume are inversely proportional ● As volume increases, pressure decreases.

13.2 THE GAS LAWS pp

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

Chapter 14 The Behavior of Gases 14.2 The Gas Laws

Kinetic-Molecular Theory Describes the behavior of an “ideal” gas in terms of particle size, motion, and energy based on 5 assumptions…

Charles’ Law.  discovered by French physicist, Jacques Charles in 1787  first person to fill balloon with hydrogen gas and make solo balloon flight.

Volume and Temperature

#1. Boyle’s Law Gas pressure is inversely proportional to the volume, when temperature is held constant. Pressure x Volume = a constant Equation:

Section 9.2.  Definition: a measure of the average kinetic energy of a substance’s particles  Generally measured in o C  The Kelvin temperature scale.

Temperature Scales Fahrenheit, Celsius & Kelvin. Temperature  Is a measure of how hot or cold an object is compared to another object.  Indicates that.

Gas pressure is due to the force of gaseous particles colliding with their container. Torricelli invented the barometer to measure atmospheric pressure.

The Gas Laws. INTRODUCTION TO GASES I can identify the properties of a gas. I can describe and explain the properties of a gas.

Chapter 14 Notes Part I Boyle’s, Charles’ and Gay- Lussac’s Laws Combined Gas Laws.

Gay-Lussac’s Law and the Combined Gas Law LG: I can apply the gas laws to solve problems involving temperature, volume and pressure.

Gas Law Quiz Pd 8. Question 1 A high altitude balloon contains 2.50 L of helium gas at 105 kPa. What is the volume when the balloon rises to an altitude.

PP THE GAS LAWS. Boyle’s Law This law is named for Charles Boyle, who studied the relationship between pressure, p, and volume, V, in the.

Gases Examples and Memory Trick. The pressure on 2.50 L of anesthetic gas changes from 105 kPa to 40.5 kPa. What will be the new volume if the temp remains.

Chapter 14 Notes Part I Boyle’s, Charles’ and Gay- Lussac’s Laws Combined Gas Laws.

Chapter 14 “The Behavior of Gases” Chemistry Level 2.

1.3 Reacting Masses and Volumes Reacting Gases

Chapter 14 Notes Part I Boyle’s, Charles’ and Gay- Lussac’s Laws Combined Gas Laws.

Changes in Gas pressure Chapter 8.4 con’t. Variables Pressure Volume Temperature.

The Ideal Gas Law. 2 Ideal Gas Definition Ideal Gas: a hypothetical gas composed of particles that have zero size, travel in straight lines, and have.

Gases & Atmospheric Chemistry Charles’ & Gay-Lussac’s Gas Laws Unit 5.

Charles Law Charles’s Law Jacques Charles determined the relationship between temperature and volume of a gas. He measured the volume of air at different.

PP THE GAS LAWS. Boyle’s Law This law is named for Robert Boyle, who studied the relationship between pressure, p, and volume, V, in the.

KEY WORDS: heat, thermometer, joules, degree Celsius, temperature, energy, thermogram.

Temperature. Temperature ºF ºC K K = ºC Always use absolute temperature (Kelvin) when working with gases.

Objectives: correctly describe the 5 pts of kinetic molecular theory for each law: define include math expressions if appropriate generate a graph that.

Objective: To introduce the properties of gases and its factors Do Now: What are some of the properties of a gas?

Gas Laws Chapter 14. Factors Effecting Gases  1. Temperature (T)  a measure of the average kinetic energy (movement) of particles in a sample of matter.

The Properties of Gases Chapter 12. Properties of Gases (not in Notes) Gases are fluids… Fluid: (not just to describe liquids)  can describe substances.

Behavior of gases Ch.12 Remember the Kinetic Theory!! Gases are affected by changes in temperature and pressure. Both solids and liquids are affected.

Chapter 13: Gases Pressure Boyle’s Law Charles’s Law.

11.8 & 11.9 Three Gas Laws & Combined Gas Law. If we place a balloon in liquid nitrogen it shrinks: How Volume Varies With Temperature So, gases shrink.

Chemistry Notes Boyle’s, Charles’ and Gay- Lussac’s Laws Combined Gas Laws.

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.

Boyle’s Charles’ and Gay-Lussac’s Laws Combined Gas Laws

Chapter 12 The behavior of gases.

Combined Gas Law.

The relationship between temperature and volume

Ch. 10: Physical Properties of Gases

The relationship between temperature and volume

Gas Laws Involving Temperature

Ch. 10: Physical Properties of Gases

Gas Laws Notes.

Charles’ Law.

Presentation transcript:

VOLUME AND TEMPERATURE: CHARLES’S LAW 13.1: Pgs

Jacques Charles ( )  First person to fill a balloon with hydrogen gas  Made the first solo balloon flight  His main discovery is shown in the graph…

Plots of V (L) versus T (°C) for several gases.  Volume increases when the temperature increases  Direct relationship, as T, V

Charles’s Law  Charles’s Law:  T is in Kelvins  CANNOT CHANGE the pressure or amount of gas It tells us that the volume of the gas is directly proportional to the temperature on the Kelvin scale

Plots of volume versus temperature  As we cool gases, they eventually liquefy  If we extend a straight line back, ALL lines reach zero volume at o C  This suggests that -273 o C is the lowest possible temperature

Absolute Zero and the Kelvin Scale  Lord Kelvin proposed a new temperature scale based on this discovery  Kelvin (K) scale: 1 K same size as 1 degree C, but zero point changed to -273 o C and became 0 K (not degrees) 260 o C becomes ___ K? 13K  0 K is lowest temperature theoretically possible  Absolute zero represents zero kinetic energy All motion stops theoretically

Example  A balloon inflated in a room at 24 o C has a volume of 4.00L. The balloon is then heated to a temperature of 58 o C. What is the new volume if the pressure remains constant?  If a sample of gas occupies 6.80L at 325 o C, what will be its volume at 25 o C if the pressure does not change.

Gay-Lussac’s Law  Studies the relationship between pressure and temperature  “The pressure of a gas is directly proportional to the Kelvin temperature if the volume remains constant”

Example  The gas left in a used aerosol can is at a pressure of 103 kPa at 25 o C. If this can is thrown onto a fire, what is the pressure of the gas when its temperature reaches 928 o C?  The pressure in an automobile tire is 198 kPa at 27.0 o C. At the end of a trip on a hot sunny day, the pressure has risen to 225 kPa. What is the temperature of the air in the tire? (Assume the volume has not changed.)