Chapter 12 – Review The Behavior of Gases

Slides:

Advertisements

Similar presentations

Section 2 – The Gas Laws Scientists have been studying physical properties of gases for hundreds of years. In 1662, Robert Boyle discovered that gas.

Advertisements

Three More Laws. A. Ideal Gas Law The 4 th variable that considers the amount of gas in the system is P 1 V 1 T 1 n = P 2 V 2 T 2 n Equal volumes of gases.

The Behavior of Gases Chapter 14.

Physical Characteristics of Gases

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

Gas Laws Mr. Gates Created by Educational Technology Network

Behavior of Gases Review. True or False: One mole of any gas, regardless of size, temperature, or pressure occupies 22.4L? 1.True 2.False.

Chapter 10 PHYSICAL CHARACTERISTICS OF GASES

Chapter 10 Gases No…not that kind of gas. Kinetic Molecular Theory of Gases Kinetic Molecular Theory of Gases – Based on the assumption that gas molecules.

Drill 4/16/2015 What do you think is the oldest form of human flight? How does it work?

 Slides 3-8 Slides 3-8 ◦ Part One: Kinetic Molecular Theory and Introduction to Gas Laws  Slides Slides ◦ Part Two: Boyle’s Law, Charles’

Agenda: 4/22 Gases & Gas Laws Purpose: To use mathematical formulas to predict how a gas will change Warm-up: Stoichiometry Problems with Gases States.

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.

1 Chapter 12 The Behavior of Gases Milbank High School.

Chapter 12 The Behavior of gases

Chapter 9 - Review States of Matter

Chapter 13: Gases. What Are Gases? Gases have mass Gases have mass.

Chapter 14 – Gases Kinetic Molecular Theory (KMT) Defn – describes the behavior of gases in terms of particle motion Defn – describes the behavior of.

Unit 10 Gas Laws. I. Kinetic Theory Particles in an ideal gas… 1.gases are hard, small, spherical particles 2.don’t attract or repel each other. 3.are.

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

Gases Notes A. Physical Properties: 1.Gases have mass. The density is much smaller than solids or liquids, but they have mass. (A full balloon weighs.

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

Ch. 12 Behavior of Gases. Gases Gases expand to fill its container, unlike solids or liquids Easily compressible: measure of how much the volume of matter.

Gas Laws. The Gas Laws Describe HOW gases behave. Can be predicted by the The Kinetic Theory.

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

11.1 The volume occupied by a gas is mostly empty space.

Unit 14 Gas Laws. Properties of Gases Gas properties can be modeled using math. Model depends on— 1.V = volume of the gas (L) 2.T = temperature (Kelvin,

Unit 8 Chemistry Langley

Section 3.7—Gas Behavior How does the behavior of gases affect airbags? What is PRESSURE? Force of gas particles running into a surface.

The Behavior of Gases Chapter 14.

Warm-up R= L atm/mol k  If a gas is compressed…  What happens to the volume?  What happens to the pressure?  What happens to Temperature? 

Chapter 5: Gases 5.1 Pressure. Gaseous State of Matter  has no distinct or __________ so fills any container  is easily compressed  completely with.

Agenda: 4/23 or 4/24 Purpose: To use mathematical formulas to predict how a gas will change Warm-up: States of Matter Kinetic Molecular Theory Measurements.

Review of Gases. The nature of gases… Gases all have common physical properties: 1)Mass 2)Easily compressible 3)Take the shape of their container 4)Can.

Gas Laws Test Gas Pressure Gas Pressure Kinetic Molecular Theory of Ideal Gases Kinetic Molecular Theory of Ideal Gases Boyle’s Law (Problems & KMT) Boyle’s.

Chapter 14: The Behavior of Gases

Starter S-146 List five properties of gases.. The Behavior of Gases Chapter 14.

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

Ideal Gas Law & Gas Mixtures. Ideal Gas Law Ideal Gas Law: PV = nRT Where n = the number of moles R is the Ideal Gas Constant The ideal gas law can be.

The Gas Laws u The gas laws describe HOW gases behave. u They can be predicted by theory. u The amount of change can be calculated with mathematical.

Chapter 14 The Behavior of Gases.

Combined Gas Laws. Measurement For measuring temperature and pressure: STP: Standard Temperature and Pressure T = 0 0 C or 273 K P = kPa at sea.

Chapter 14 Gas Laws Kinetic Molecular Theory – Assumes gas particles are small particles w/lots of space between them – No attractive forces; particles.

Ch. 14 The Behavior of Gases PROPERTIES OF GASES.

Gas Laws. 1. Kinetic Molecular Theory Ideal Gases :  Gas particles do not attract or repel each other.  Gas particles are much smaller than the distances.

Chapter 14 Review “The Behavior of Gases”. Chapter 14 Review Charles’s law states that ____. Charles’s law states that ____. As the temperature of a fixed.

Chapter 14 Properties of Gases Section 14.1 The Behavior of Gases 1.

Chapter 14 Review “The Behavior of Gases”. First Item: Know the Theory and Definitions of the Gas Laws PTV Remember.

Jennie L. Borders. Section 14.1 – Properties of Gases Compressibility is a measure of how much the volume of matter decreases under pressure. Gases are.

Chapter 11 Gases Pages The Gas Laws Robert Boyle discovered that doubling the __________ on a sample of gas at a constant temperature (because.

Behavior of Gases. Gases exert Pressure Due to collisions of particles Barometer Review units Compression of gas absorbs E.

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.

Chapter 12 “The Behavior of Gases” Pre-AP Chemistry Charles Page High School Stephen L. Cotton.

The Behavior of Gases Chapter 14. Chapter 14: Terms to Know Compressibility Boyle’s law Charles’s law Gay-Lussac’s law Combined gas law Ideal gas constant.

DO NOW List 5 gases that you can think of without the aide of a book. Classify these gases are either elements, compounds or mixtures. Explain your classifications.

1 Behavior of Gases Ch Why do air bags work? Which would you rather hit the dashboard or an air bag? Why? Which would you rather hit the dashboard.

Chapter 14 Review “The Behavior of Gases” Chemistry 1 Barstow High School Mr. Smith.

Behavior of Gases. Compressibility Compressibility- a measure of how much the volume of matter decreases under pressure.

Gas Laws. Phases of Matter SOLID Definite Shape Definite Volume LIQUID Shape varies depending on container Definite Volume GAS Takes on the shape and.

Chapter 14 Gas Behavior.

Gases Physical Characteristics & Molecular Composition

Chapter 14 Gases.

Chapter 14 Review “The Behavior of Gases”

Starter S-146 List five properties of gases..

Presentation transcript:

Chapter 12 – Review The Behavior of Gases Milbank High School

Chapter 12 - Review Know the assumptions of the kinetic theory. Why does the pressure inside a container of gas increase if more gas is added to the container? Why does air leave a tire when the tire valve is opened?

Chapter 12 - Review If 4 moles of gas are added to a container that already holds 1 mole of gas, how will the pressure change within the container? Increasing the volume of a given amount of gas at constant temp. causes the pressure to decrease because _______.

Chapter 12 - Review If the volume of a container holding a gas is reduced, what will happen to the pressure within the container? What happens to the temperature of a gas when it is compressed?

Chapter 12 - Review What happens to the pressure of a gas inside a container, if the temperature of the gas is lowered? If a balloon is squeezed, what happens to the air pressure within the balloon?

Chapter 12 - Review The volume of a gas is doubled while the temperature is held constant. How does the gas pressure change? The volume of a gas is reduced from 4.0 L to 0.5 L while the temperature is held constant. How does the gas pressure change?

Chapter 12 - Review A gas occupies a volume of 0.7 L at 10.1 kPa. What volume will the gas occupy at 101 kPa? A sample of gas occupies 40 mL at –123 oC. What volume does the sample occupy at 27 oC? What type of changes could cause an increase in the pressure of a gaseous system?

Chapter 12 - Review Why does an aerosol can become cooler when gas is released? As the temperature of a fixed volume of gas increases, the pressure will _____. As the temperature of a balloon decreases, the average kinetic energy _____.

Chapter 12 - Review Boyle’s law states that _____. When the temperature and number of particles are kept constant for a sample of gas, what is also constant for the sample? Charles’ law states that _____.

Chapter 12 - Review When the pressure and number of particles are kept constant for a gas, what else is kept constant? If a capped syringe is plunged into cold water, in which direction will the syringe piston slide?

Chapter 12 - Review Generally, for a gas at a constant volume, the pressure is _____ proportional to its temperature in Kelvin. If a capped syringe is heated, in which direction will the syringe piston move? The combined gas law relates to what variables?

Chapter 12 - Review If a balloon containing 1000 L of gas at 50 oC and 101 kPa rises to an altitude where the pressure is 50.5 kPa and the temperature is 10 oC, the volume of the balloon under these new conditions would be _____.

Chapter 12 - Review At very high pressures, how does the volume of a real gas compare with the volume that would be predicted for an ideal gas under the same conditions? At low temp. and pressure, how does the volume of a real gas compare with an ideal gas?

Chapter 12 - Review An ideal gas CANNOT be converted to a ____. When the volume and number of particles are held constant for a sample of gas, what else is kept constant? Which is constant for 1 mole? PT/V or PV/T

Chapter 12 - Review At a certain temperature and pressure, 0.20 mol of CO2 has a volume of 3.1 L. A 3.1 L sample of hydrogen at the same temperature and pressure contains ______ molecules. Under what conditions is the behavior of a real gas like that of an ideal gas?

Chapter 12 - Review What happens to the partial pressure of oxygen in the air if the air temperature is increased? If the volume of a container of air is reduced by one-half, what happens to the partial pressure of oxygen within the container?

Chapter 12 - Review A breathing mixture used by deep-sea divers contains helium, oxygen, and carbon dioxide. What is the partial pressure of oxygen at 101 kPa, if PHe = 84 kPa and PCO2 = 0.1 kPa?

Chapter 12 - Review When a container is filled with 3 moles of H2, 2 moles of O2, and 1 mole of N2, the pressure in the container is 8787 kPa. What is the partial pressure of O2?

Chapter 12 - Review If the atmospheric pressure on Mt. Everest is one-third the atmospheric pressure at sea level, the partial pressure of oxygen on Mt. Everest is _____. The tendency of molecules to move toward areas of lower concentration is called _____.

Chapter 12 - Review A box with a volume of 22.4 L contains 1.0 mol of nitrogen and 2.0 moles of hydrogen at 0 oC. What is the partial pressure of the nitrogen? Which gas would effuse most rapidly: chlorine or hydrogen?