Presentation is loading. Please wait.

Presentation is loading. Please wait.

Fig. 16-5 The force between two molecules (blue curve) is zero at a separation r = r o, where the potential energy (red curve) is a minimum. The force.

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "Fig. 16-5 The force between two molecules (blue curve) is zero at a separation r = r o, where the potential energy (red curve) is a minimum. The force."— Presentation transcript:

1 Fig. 16-5 The force between two molecules (blue curve) is zero at a separation r = r o, where the potential energy (red curve) is a minimum. The force is attractive when the separation is greater than r and repulsive when the separation is less than r o.

2 Fig. 16-6 Schematic representation of the cubic crystal structure of sodium chloride.

3 Fig. 16-8 Elastic collision of a molecule with an idealized container wall. The velocity component parallel to the wall does not change; the component perpendicular to the wall reverses direction. The speed v does not change.

4 Fig. 16-9 A molecule moving toward the wall with speed v x collides with the area A during the time interval dt only if it is within a distance v x dt of the wall at the beginning of the interval. All such molecules are contained within a volume A v x dt.

5 Fig. 16-10 In a time dt a molecule with a radius r will collide with any other molecule within a cylindrical volume of radius 2r and length v dt.

6 Fig. 16-11 When an amount of heat dQ is added to (a) a constant volume of monatomic ideal gas molecules, (b) the total translational kinetic energy increases by dK tr = dQ, and the temperature increases by dT = dQ / nCv.

Download ppt "Fig. 16-5 The force between two molecules (blue curve) is zero at a separation r = r o, where the potential energy (red curve) is a minimum. The force."

Similar presentations

Kinetic Theory of Gases I

Kinetic Theory of Gases I
The Kinetic Theory of Gases

The Kinetic Theory of Gases
The kinetic theory of gases and the gas laws. Kinetic theory/ideal gas We can understand the behaviour of gases using a very simple model, that of an.

The kinetic theory of gases and the gas laws. Kinetic theory/ideal gas We can understand the behaviour of gases using a very simple model, that of an.
Pressure and Kinetic Energy

Pressure and Kinetic Energy
Ideal gas Assumptions Particles that form the gas have no volume and consist of single atoms. Intermolecular interactions are vanishingly small.

Ideal gas Assumptions Particles that form the gas have no volume and consist of single atoms. Intermolecular interactions are vanishingly small.
Kinetic Molecular Theory

Kinetic Molecular Theory
Ideal gas Assumptions 1.Particles that form the gas have no volume and consist of single atoms. 2.Intermolecular interactions are vanishingly small.

Ideal gas Assumptions 1.Particles that form the gas have no volume and consist of single atoms. 2.Intermolecular interactions are vanishingly small.
Chapter 4: Gases. Pressure and Temperature macroscopic – large when compared to the molecular scale macroscopic properties – relatively small set of quantities.

Chapter 4: Gases. Pressure and Temperature macroscopic – large when compared to the molecular scale macroscopic properties – relatively small set of quantities.
Q18.1 A quantity of an ideal gas is contained in a balloon. Initially the gas temperature is 27°C. You double the pressure on the balloon and change the.

Q18.1 A quantity of an ideal gas is contained in a balloon. Initially the gas temperature is 27°C. You double the pressure on the balloon and change the.
Kinetic Theory and Thermodynamics

Kinetic Theory and Thermodynamics
15 12.6 Skip 12.7 Laws and Models Laws, such as the ideal gas law, predict how a gas will behave, but not why it behaves so. A model (theory) explains.

Skip 12.7 Laws and Models Laws, such as the ideal gas law, predict how a gas will behave, but not why it behaves so. A model (theory) explains.
Thermo & Stat Mech - Spring 2006 Class 14 1 Thermodynamics and Statistical Mechanics Kinetic Theory of Gases.

Thermo & Stat Mech - Spring 2006 Class 14 1 Thermodynamics and Statistical Mechanics Kinetic Theory of Gases.
Physics 52 - Heat and Optics Dr. Joseph F. Becker Physics Department San Jose State University © 2005 J. F. Becker.

Physics 52 - Heat and Optics Dr. Joseph F. Becker Physics Department San Jose State University © 2005 J. F. Becker.
Lecture 1710/12/05. 2 closed 1.0 L vessels contain 1 atm Br 2 (g) and 1 atm F 2 (g), respectively. When they are allowed to mix, they react to form BrF.

Lecture 1710/12/05. 2 closed 1.0 L vessels contain 1 atm Br 2 (g) and 1 atm F 2 (g), respectively. When they are allowed to mix, they react to form BrF.
OCTOBER 20 AIM: What is PRESSURE ? Atmospheric pressure Units Gas pressure.

OCTOBER 20 AIM: What is PRESSURE ? Atmospheric pressure Units Gas pressure.
This theory helps explain and describe relationships between pressure, volume, temperature, velocity, frequency, and force of collisions. This theory describes.

This theory helps explain and describe relationships between pressure, volume, temperature, velocity, frequency, and force of collisions. This theory describes.
A microscopic model of an ideal gas

A microscopic model of an ideal gas
© 2005 Pearson Prentice Hall This work is protected by United States copyright laws and is provided solely for the use of instructors in teaching their.

© 2005 Pearson Prentice Hall This work is protected by United States copyright laws and is provided solely for the use of instructors in teaching their.
EEE 3394 Electronic Materials

EEE 3394 Electronic Materials
The Property of Gases – Kinetic Molecular Theory And Pressure.

The Property of Gases – Kinetic Molecular Theory And Pressure.

Similar presentations

Ads by Google