Properties Kinetic Molecular Theory Variables The Atmosphere Gas Laws

Slides:

Advertisements

Similar presentations

Kinetic Molecular Theory. What if… b Left a basketball outside in the cold… would the ball appear to be inflated or deflated? b Which picture box do you.

Advertisements

I. Physical Properties Ch 12.1 & 13 Gases. Kinetic Molecular Theory 1. Particles of matter are ALWAYS in motion 2. Volume of individual particles is 

Gases. Gases - Concepts to Master What unit of measurement is used for temperature when solving gas law problems? Why? Summarize the Kinetic Molecular.

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

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.

Unit 5: Gases and Gas Laws. Kinetic Molecular Theory  Particles of matter are ALWAYS in motion  Volume of individual particles is  zero.  Collisions.

Chapter 10 Gases. A Gas -Uniformly fills any container. -Mixes completely with any other gas -Exerts pressure on its surroundings.

Gas!!! It’s Everywhere!!!!.

Chapter 13: Gases. What Are Gases? Gases have mass Gases have mass Much less compared to liquids and solids Much less compared to liquids and solids.

Chapter #10 Physical Characteristics of Gases. Chapter 10.1 Kinetic-molecular theory is based on the idea that particles of matter are always in motion.

A Gas -Uniformly fills any container. -Mixes completely with any other gas -Exerts pressure on its surroundings.

I. Physical Properties Ch Gases. A. Kinetic Molecular Theory b Particles in an ideal gas… have no volume. have elastic collisions. are in constant,

1 Gases Part 1. 2 Properties of Gases Gases have very low densities, and may be compressed or expanded easily: in other words, gases expand or compress.

Gases Properties Kinetic Molecular Theory Variables The Atmosphere Gas Laws.

Outline General properties of gas Kinetic molecular theory of gas Development of the ideal gas law Ideal gas law PV=nRT Conclusion exercise.

Ch. 10 Gases. Characteristics of Gases b Gases expand to fill any container. random motion, no attraction b Gases are fluids (like liquids). no attraction.

Unit 5: Gases and Gas Laws. Kinetic Molecular Theory  Particles of matter are ALWAYS in motion  Volume of individual particles is  zero.  Collisions.

I. Physical Properties Gases. A. Kinetic Molecular Theory b Particles in an ideal gas… have no volume. have elastic collisions. are in constant, random,

Gases Judy Hugh. Useful Units to Remember P: Pressure - Atmospheres (atm), torr, mmHg V: Volume - Liters (L) n: Amount of gas - moles (mol) T: Temperature.

Gases. Ideal Gases Ideal gases are imaginary gases that perfectly fit all of the assumptions of the kinetic molecular theory.  Gases consist of tiny.

 The kinetic theory assumes the following concepts about gasses are true:  Gas particles do not attract or repel each other  Gas particles are much.

The Property of Gases – Kinetic Molecular Theory explains why gases behave as they do

Ideal Gas Law Gases. C. Characteristics of Gases b Gases expand to fill any container. random motion, no attraction b Gases are fluids (like liquids).

 Gas particles are much smaller than the distance between them We assume the gas particles themselves have virtually no volume  Gas particles do not.

The Gas Laws 1. A gas is composed of particles molecules or atoms – hard spheres far enough apart- ignore volume Empty space The Kinetic Theory of Gases.

I. Physical Properties Ch Gases. A. Kinetic Molecular Theory b Particles in an ideal gas… have mass but no definite volume. have elastic collisions.

Gas Laws Kinetic Theory assumptions Gas particles do not attract or repel Small particles in constant random motion Elastic collisions All gases have the.

V. Combined and Ideal Gas Law

Gases Physical Characteristics & Molecular Composition

Unit 5: Gases and Gas Laws

Ch. 10 – The Mole Molar Conversions.

A. Kinetic Molecular Theory

What affects the behavior of a gas?

Gas Laws The work of Boyles, Charles, Avogadro, Dalton and Graham explains the behavior of ideal gases.

Physical Characteristics of Gases

Gases I. Physical Properties.

Gases Physical Properties.

Copyright©2000 by Houghton Mifflin Company. All rights reserved.

PV = nRT Ideal Gas Law Ideal Gases Avogadro’s Principle Ideal Gas Law

Physical Characteristics of Gases

Gases I. Physical Properties 9 (A) describe and calculate the relations between volume, pressure, number of moles, and temperature for an ideal gas as.

AP Chem Unit 1 Test Corrections (and make-up work) due by next Thursday Today: Gas Behavior and Gas Laws Review Bring in empty/clean soup can you’d feel.

How does a gas differ from a solid and a liquid?

Particles subject to Pressure, Temperature, Moles and Volume

Ch Gases I. Physical Properties.

Kinetic Molecular Theory

NOTES: 13.1 & 14.1 Gases and Kinetic Molecular Theory

Gas Laws The work of Boyles, Charles, Avogadro, Dalton and Graham explains the behavior of ideal gases.

Chapter 13: Gases.

Ch Gases I. Physical Properties.

Ch Gases I. Physical Properties.

Kinetic Molecular Theory of Gases

AIM: What are the general properties of gases and what is PRESSURE

Gases Physical Properties.

The Gas Laws A Tutorial on the Behavior of Gases. Mr. Forte Chemistry

AP Chem Today: Gas Behavior and Gas Laws Review

Gases and Gas Laws.

Kinetic-Molecular Theory

Gases Chapters 10 & 11.

Gas Laws Chemistry.

Physical Characteristics of Gases

The Gas Laws Chapter 14.1.

Chap 11 Gas laws.

General Gas Laws Instructions: Copy all slides on separate paper so that it can be put in your notebook. Work the example problems (Ideal Gas Law) on separate.

Gases and Laws – Unit 2 Version

Presentation transcript:

Properties Kinetic Molecular Theory Variables The Atmosphere Gas Laws Gases Properties Kinetic Molecular Theory Variables The Atmosphere Gas Laws

Properties of a Gas No definite shape or volume Low Density Gases expand to fill any container Thus they take the shape of the container, as well as the volume! Low Density Most of the volume of a gas is empty space-since the gas particles want to be as far from all like particles as possible As a result, gases are compressible

Properties of a Gas Fluid can flow like a liquid

The Atmosphere Composed of a mixture of gases -Approx. 80% N2 and 20% O2 Provides conditions for life, protects from UV radiation, traps heat Please read about the Greenhouse Effect and the Ozone Layer in your text books…you will be responsible for that information...

The Kinetic Molecular Theory Explains the behavior of gases at the molecular level Based on assumptions about a theoretical gas referred to as the Ideal Gas.

The Kinetic Molecular Theory 1) Volume of gas particles is essentially zero (Point Masses) 2) Particles are in constant, random motion 3) No attractive forces betw. particles and collisions are perfectly elastic No energy is lost by the particles during collisions

The Kinetic Molecular Theory 4) The temperature of a gas is directly proportional to the average kinetic energy associated with the particles, thus the higher the temperature, the faster the particles are moving... K.E. = 1/2 mv2

Ideal vs. Real Gas Ideal Gas Real Gas Has mass but no volume Has no attractive forces between molecules Real Gas Molecules do have volume Molecules exert an attractive force on each other when very close.

Ideal vs. Real Gas At normal temps. & pressures, real gases behave like ideal gases

Four variables that describe a gas... 1) Temperature - the measure of the avg. kinetic energy gases at the same temp. must have the same avg. kinetic energy Must be in Kelvin! TK = TC + 273

Four variables that describe a gas... 2) Volume - The amount of space occupied by the particles, measured in liters, mL, cm3, m3, etc.

Four variables that describe a gas... 3) Pressure - The force exerted by the gas per unit of area In gases - meas. of total force exerted by the particles colliding w/ the walls of their container. - proportional to the number of collisions -Incr. temp, incr. press. - Incr. # of particles, incr. press. usually measured in: atmospheres (atm), kPa (kilo-pascals), N/m2 Pascal - SI unit of pressure = to 1 N/m2 very small press. - usually use kilopascals

Four variables that describe a gas... 4) Number of particles Equal volumes of gases under the same conditions have equal numbers of particles...

Avogadro’s Principle 1 mol (of any gas) = 22.4 L The volume of a gas at a given temperature and pressure is directly proportional to the number of moles of that gas ie equal volumes of gases under the same conditions contain the same number of particles. Molar Volume is the volume of 1 mole of any gas at STP 1 mol (of any gas) = 22.4 L

Standard Conditions STP Standard Temperature is 273 K Standard Pressure is… 1.0000 atm 101.325 kPa 760.0 mm Hg 760.0 torr Note: you can use any pressure units but you can only use Kelvin temperature units!

The Gas Laws P1 V1 = P2 V2 Boyle’s Law - the volume of a gas at constant temp. is inversely proportional to the pressure P1 V1 = P2 V2 Read Ch. 12 Section 2

The Gas Laws Charles’ Law - the volume of a gas at constant press. is directly proportional to the absolute (Kelvin) temp. V1 / T1 = V2 / T2

The Gas Laws Combined Gas Law - Combines Boyle’s & Charles’ Law P1V1 / T1 = P2V2 / T2 Read Ch. 12 Section 2

The Gas Laws PV = n R T Ideal Gas Law n = # of moles R = 8.31 L kPa / mol K Or 0.0821 L atm / mol K Read Ch. 12 Section 2