_ kinetic molecular theory and gas law.ppt
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Feb 27, 2025
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About This Presentation
Understanding Kinetic Molecular Theory Through Everyday Phenomena
How Kinetic Molecular Theory Explains Your Morning Coffee Experience
The Dance of Particles: A Creative Journey into Kinetic Molecular Theory
Connecting Kinetic Molecular Theory to Climate Change and Weather Patterns
Kinetic M...
Slide Content
Kinetic-Molecular
Theory
Kinetic Molecular
Theory (KMT) is a
model used to
explain the behavior
of gases.
Theory
Kinetic Molecular
Theory (KMT) is a
model used to
explain the behavior
of gases.
Major Ideas of Kinetic
Molecular Theory
Gases contain particles
(usually molecules or
atoms) that are in
constant, random,
straight line motion.
Molecular Theory
Gases contain particles
(usually molecules or
atoms) that are in
constant, random,
straight line motion.
Major Ideas of Kinetic
Molecular Theory
Gas particles collide with
each other and with the
walls of the container. The
collisions transfer energy,
but there is no net loss of
energy.
Molecular Theory
Gas particles collide with
each other and with the
walls of the container. The
collisions transfer energy,
but there is no net loss of
energy.
Major Ideas of Kinetic
Molecular Theory
Gas particles are
separated by relatively
great distances. Because
of this, the volume
occupied by the particles
themselves is negligible.
Molecular Theory
Gas particles are
separated by relatively
great distances. Because
of this, the volume
occupied by the particles
themselves is negligible.
Major Ideas of Kinetic
Molecular Theory
Gas particles do not
attract each other.
Molecular Theory
Gas particles do not
attract each other.
The Nature of Gases
KMT Theory explains why gases exert
pressure
Not only do the gas particles collide with
each other, but they also collide with the
walls.
KMT Theory explains why gases exert
pressure
Not only do the gas particles collide with
each other, but they also collide with the
walls.
The Nature of Gases
The collisions with the wall exert a force
over the surface area of the wall.
That is they exert pressure on the
wall…
Recall that pressure is a force per unit
area.
The collisions with the wall exert a force
over the surface area of the wall.
That is they exert pressure on the
wall…
Recall that pressure is a force per unit
area.
Units of Pressure
We will use two different units for
pressure.
Atmospheres (atm)
kiloPascals
Animation
We will use two different units for
pressure.
Atmospheres (atm)
kiloPascals
Animation
Temperature
Recall that temperature is the average
kinetic energy of the particles.
So, the higher the temp, the faster the
particles are moving.
Recall that temperature is the average
kinetic energy of the particles.
So, the higher the temp, the faster the
particles are moving.
Behavior of Gases
There are four variables…
# of gas particles present
Pressure
Temperature
Volume
… that explain the behavior of gases.
There are four variables…
# of gas particles present
Pressure
Temperature
Volume
… that explain the behavior of gases.
Chemistry Lab
Boyles Law
Boyles Law
Animations
Boyle’s Law
Boyle’s Law states that the volume of a
given amount of gas held at constant
temperature varies inversely with the
pressure.
Mathematically…
P
1V
1 = P
2V
2
Boyle’s Law states that the volume of a
given amount of gas held at constant
temperature varies inversely with the
pressure.
Mathematically…
P
1V
1 = P
2V
2
Chemistry Lab
Pressure-Temperature
Relationship in Gases
Pressure-Temperature
Relationship in Gases
Gay-Lussac’s Law
States that the pressure of a given
mass of gas varies directly with the
kelvin temperature when the volume
remains constant.
Mathematically, …
P
1 / T
1 = P
2 / T
2
States that the pressure of a given
mass of gas varies directly with the
kelvin temperature when the volume
remains constant.
Mathematically, …
P
1 / T
1 = P
2 / T
2
Practice Problem
A sealed rigid container has a volume of
2.5L, and a pressure of 2 atm at 400K.
What will be the new pressure if the
container is cooled to 300K?
A sealed rigid container has a volume of
2.5L, and a pressure of 2 atm at 400K.
What will be the new pressure if the
container is cooled to 300K?
Charles’s Law
States that the volume of a given mass
of gas is directly proportional to to its
kelvin temperature at constant
pressure.
Mathematically, …
V
1 / T
1 = V
2 / T
2
States that the volume of a given mass
of gas is directly proportional to to its
kelvin temperature at constant
pressure.
Mathematically, …
V
1 / T
1 = V
2 / T
2
Combined Gas Law
Equation
The relationships among pressure
temperature, and volume can be
mathematically represented by an
equation know as the combined gas
law…
P
1V
1 / T
1 = P
2V
2 / T
2
(reference tables)
Equation
The relationships among pressure
temperature, and volume can be
mathematically represented by an
equation know as the combined gas
law…
P
1V
1 / T
1 = P
2V
2 / T
2
(reference tables)
Practice Problem
What volume will a gas occupy if the
pressure on 300 cm
3
of gas at 5.0 atm
is increased to 7.0 atm? Assume the
temperature remains constant.
What volume will a gas occupy if the
pressure on 300 cm
3
of gas at 5.0 atm
is increased to 7.0 atm? Assume the
temperature remains constant.
Standard Temperature
and Pressure
Standard pressure is defined as 1
atmosphere
One atmosphere is equal to…
101.3 kPa
760 mm Hg
760 torr
Standard temperature is defined as 0
0
C
(273 K)
and Pressure
Standard pressure is defined as 1
atmosphere
One atmosphere is equal to…
101.3 kPa
760 mm Hg
760 torr
Standard temperature is defined as 0
0
C
(273 K)
Lets Practice More…
If 120 cm
3
of a gas is at STP, what
volume will the gas occupy if the
temperature is raised to 50
0
C and the
pressure is increased to 950 torr?
If 120 cm
3
of a gas is at STP, what
volume will the gas occupy if the
temperature is raised to 50
0
C and the
pressure is increased to 950 torr?
Ideal vs. Real Gases
When gas laws are used to solve
problems, the results don’t always
agree exactly with lab results
The explanation is that the assumptions
of KMT are not exactly correct.
When gas laws are used to solve
problems, the results don’t always
agree exactly with lab results
The explanation is that the assumptions
of KMT are not exactly correct.
Ideal vs. Real Gases
Gas particles really do attract one
another!
In most cases, IMF’s are so small they can
be ignored
But in extreme cases, the IMF’s become
significant and important
For example, water becomes snow or rain
when the temps get low enough.
Gas particles really do attract one
another!
In most cases, IMF’s are so small they can
be ignored
But in extreme cases, the IMF’s become
significant and important
For example, water becomes snow or rain
when the temps get low enough.
Ideal vs. Real Gases
Gas particles actually do occupy
volume!
As pressure increases, the volume
occupied by the by the gas particles can’t
be ignored.
At high pressures, there are more frequent
collisions.
Gas particles actually do occupy
volume!
As pressure increases, the volume
occupied by the by the gas particles can’t
be ignored.
At high pressures, there are more frequent
collisions.
Under What Conditions
Is A Gas Nearly Ideal?
Low Pressure
High Temperature
Because those conditions allow the
molecules to stay far away from one
another.
Is A Gas Nearly Ideal?
Low Pressure
High Temperature
Because those conditions allow the
molecules to stay far away from one
another.
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