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The Nature of Gases

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Title: The Nature of Gases

1
The Nature of Gases

2
Objectives

3
Introduction

Kinetic means motion.
Kinetic energy, KE, is the energy of motion.
The kinetic theory is a model of matter where ...
... all matter is composed of tiny particles ...
... in constant motion.
The kinetic theory applies to all states of
matter.
We will apply it first to gases and then extend
the theory to liquids and solids.

4
Introduction

The kinetic theory describes the behavior of
matter in its various states.
There are a series of assumptions we make about
matter in order to use the theory.
These assumptions help us to understand how to
apply the theory to ...
... gases ...
... liquids ...
... and solids.

5
First Assumption

The particles in a gas are considered to be very
small, very hard spheres with an insignificant
volume.
This means that the individual gas particles ...
are atoms or small molecules
are very far apart in relation to the size of the
particles
have very little attraction or repulsion towards
one another
move independently of each other

6
Second Assumption

The motion of the particles in a gas is rapid,
constant, and random.
This means that the individual gas particles ...
spread out to fill any volume or shape of
container
travel in straight lines until they encounter
another particle or another object
change direction only after a collision

7
Second Assumption

Experimental measurements of gas molecules show
that they move quite rapidly, even at room
temperature.
O2 molecules have an average speed of 1,700 km/hr
(1,060 mph).
However, they only travel about 70 nm until they
encounter another particle.
This is about 500 times their diameter
Each gas molecule travels in a very crooked path
called a random walk.

8
Third Assumption

9
Applications

10
Applications

We can use these assumptions to understand the
behavior of real gases.
Expansion
Gases expand to fill all available space of a
container.
This can be explained by the second assumption
gas particles move rapidly, constantly, and
randomly
this movement will allow the gas particles to
move to the limits of the container

11
Applications

We can use these assumptions to understand the
behavior of real gases.
Density
Gases are by far the least dense of the states of
matter.
This can be explained by the first assumption
the combination of the small size of gas
particles and the large distance between gas
particles leads to a very low density.

12
Note

The textbook lists only 3 assumptions of the
kinetic theory of matter.
There are, in fact, many more assumptions in a
complete treatment of the kinetic theory.
All of these assumptions help us to better
understand the nature of matter in all of its
states.

13
Note

Some examples of additional assumptions include
The number of molecules is so large that
statistical treatment can be applied.
The average kinetic energy of the gas particles
depends only on the temperature of the system.
The time during collision of molecule with the
container's wall is negligible as comparable to
the time between successive collisions.
The equations of motion of the molecules are
time-reversible.

14
Summary

First Assumption
The particles in a gas are considered to be very
small, very hard spheres with an insignificant
volume.
Second Assumption
The motion of the particles in a gas is rapid,
constant, and random.
Third Assumption
All collisions between gas particles are
perfectly elastic.