3.2 The Gas Laws - Amazon Simple Storage Service · 3.2 The Gas Laws When you inhale, the volume of...

3.2 The Gas Laws

When you inhale, the volume of

your chest cavity increases, and

air moves into your lungs. When

you exhale, the volume of your

chest cavity decreases, and air is

pushed out of your lungs.

Changes in the volume, the

temperature, the pressure, and

the number of particles have

predictable effects on the behavior

of a gas.

3.2 The Gas Laws

What causes gas pressure in a closed

container?

Pressure is the result of a force distributed over

an area.

Pressure

Collisions between particles of a gas and the

walls of the container cause the pressure in

a closed container of gas.

3.2 The Gas Laws

A moving hockey puck exerts pressure on

any object it hits. A layer of shatterproof glass

protects spectators.

• The faster the puck is traveling, the greater the

force of the puck on the glass. A greater force

means more pressure.

• The smaller the area of impact is, the greater

the pressure. If the edge of the puck hits the

glass, it exerts more pressure than if the face of

the puck hits the glass.

Pressure

3.2 The Gas Laws

The SI unit of pressure is derived from SI

units for force and area.

• Force is measured in newtons (N).

• Area is measured in square meters (m2).

• The SI unit for pressure, the pascal (Pa), is

shorthand for newtons per square meter.

• Scientists often express larger amounts of

pressure in kilopascals. One kilopascal (kPa) is

equal to 1000 pascals.

Pressure

3.2 The Gas Laws

The helium atoms in a balloon are constantly

moving. There are more than 1022 helium

atoms in a small balloon.

• When many particles collide with the walls of a

container at the same time, they produce a

measurable pressure.

• The more frequent the collisions, the greater

the pressure is.

• The speed of the particles and their mass also

affect the pressure.

Pressure

3.2 The Gas Laws

What factors affect gas pressure?

Factors That Affect Gas Pressure

Factors that affect the pressure of an

enclosed gas are its temperature, its volume,

and the number of its particles.

3.2 The Gas Laws

Factors That Affect Gas Pressure

Raising the temperature of a gas will

increase its pressure if the volume of the

gas and the number of particles are

constant.

Temperature

3.2 The Gas Laws

The firefighter is using a

pressure gauge to check

the air pressure in a tire

on a firetruck.

If he checks the tire

pressure again after a

long drive on a highway,

he will find that the

pressure has increased.

Factors That Affect Gas Pressure

3.2 The Gas Laws

The motion of tires on the highway heats the

tires and increases tire pressure.

• As the temperature rises, the average kinetic

energy of the particles in the air increases.

• With increased kinetic energy, the particles

move faster and collide more often with the

inner walls of the tires.

• Faster-moving particles hit the walls with

greater force.

• More collisions and increased force cause the

pressure of the air in the tires to rise.

Factors That Affect Gas Pressure

3.2 The Gas Laws

Factors That Affect Gas Pressure

Reducing the volume of a gas increases its

pressure if the temperature of the gas and

the number of particles are constant.

Volume

3.2 The Gas Laws

Twist the cap onto a plastic bottle and then

squeeze it. What happens?

• The volume of the plastic bottle begins to

decrease.

• As the volume decreases, the particles of

trapped air collide more often with the walls of

the bottle.

• The pressure in the bottle increases.

Factors That Affect Gas Pressure

3.2 The Gas Laws

Movement of a muscle called the diaphragm

changes the volume of your chest cavity.

• The volume increases when you inhale. The pressure

decreases and air flows to your lungs.

• The volume decreases when you exhale. The pressure

increases and air flows from your lungs.

Factors That Affect Gas Pressure

Lungs

Rib Cage

Diaphragm

Inhaling Exhaling

Diaphragm

contracts. Rib

cage is lifted

up and out.

Diaphragm

relaxes. Rib

cage moves

down and in.

3.2 The Gas Laws

Factors That Affect Gas Pressure

Increasing the number of particles will

increase the pressure of a gas if the

temperature and the volume are constant.

The more particles there are in the same

volume, the greater the number of collisions and

the greater the pressure.

Number of Particles

3.2 The Gas Laws

French physicist Jacques Charles collected

data on the relationship between the

temperature and volume of gases. The

graph of the data showed a direct

relationship between the volume of a gas

and the temperature of the gas.

Charles’s Law

3.2 The Gas Laws

Charles extended the

graph beyond the

measured data to find

the temperature that

would produce a

volume of 0 L.

•The temperature at the

point where the line

crossed the x-axis was

–273.15°C.

Charles’s Law

3.2 The Gas Laws

Charles extended the

graph beyond the

measured data to find

the temperature that

would produce a

volume of 0 L.

•The temperature at the

point where the line

crossed the x-axis was

–273.15°C.

Charles’s Law

3.2 The Gas Laws

Charles extended the

graph beyond the

measured data to find

the temperature that

would produce a

volume of 0 L.

•The temperature at the

point where the line

crossed the x-axis was

–273.15°C.

Charles’s Law

3.2 The Gas Laws

Charles extended the

graph beyond the

measured data to find

the temperature that

would produce a

volume of 0 L.

•The temperature at the

point where the line

crossed the x-axis was

–273.15°C.

Charles’s Law

3.2 The Gas Laws

Charles extended the

graph beyond the

measured data to find

the temperature that

would produce a

volume of 0 L.

•The temperature at the

point where the line

crossed the x-axis was

–273.15°C.

Charles’s Law

3.2 The Gas Laws

Charles extended the

graph beyond the

measured data to find

the temperature that

would produce a

volume of 0 L.

•The temperature at the

point where the line

crossed the x-axis was

–273.15°C.

Charles’s Law

3.2 The Gas Laws

Charles extended the

graph beyond the

measured data to find

the temperature that

would produce a

volume of 0 L.

•The temperature at the

point where the line

crossed the x-axis was

–273.15°C.

Charles’s Law

3.2 The Gas Laws

Charles extended the

graph beyond the

measured data to find

the temperature that

would produce a

volume of 0 L.

•The temperature at the

point where the line

crossed the x-axis was

–273.15°C.

Charles’s Law

3.2 The Gas Laws

Charles extended the

graph beyond the

measured data to find

the temperature that

would produce a

volume of 0 L.

•The temperature at the

point where the line

crossed the x-axis was

–273.15°C.

Charles’s Law

3.2 The Gas Laws

•This temperature is equal to 0 K on the

Kelvin temperature scale.

•A temperature of 0 K is called absolute

zero.

Charles’s Law

3.2 The Gas Laws

Charles’s law states that the volume of a

gas is directly proportional to its temperature

in kelvins if the pressure and the number of

particles of the gas are constant.

T1 and V1 represent the temperature and

volume of a gas before a change occurs. T2

and V2 represent the temperature and

volume after a change occurs.

Charles’s Law

3.2 The Gas Laws

Robert Boyle described

the relationship between

the pressure and volume

of a gas. The graph

shows an inverse

relationship between the

volume of a gas and the

pressure of the gas.

Boyle’s Law

3.2 The Gas Laws

Robert Boyle described

the relationship between

the pressure and volume

of a gas. The graph

shows an inverse

relationship between the

volume of a gas and the

pressure of the gas.

Boyle’s Law

3.2 The Gas Laws

Robert Boyle described

the relationship between

the pressure and volume

of a gas. The graph

shows an inverse

relationship between the

volume of a gas and the

pressure of the gas.

Boyle’s Law

3.2 The Gas Laws

Robert Boyle described

the relationship between

the pressure and volume

of a gas. The graph

shows an inverse

relationship between the

volume of a gas and the

pressure of the gas.

Boyle’s Law

3.2 The Gas Laws

Boyle’s law states that the volume of a gas

is inversely proportional to its pressure if the

temperature and the number of particles are

constant.

P1 and V1 represent the pressure and

volume of a gas before a change occurs. P2

and V2 represent the pressure and volume

of a gas after a change occurs.

Boyle’s Law

3.2 The Gas Laws

The relationships described by Boyle’s law

and Charles’s law can be described by a

single law. The combined gas law describes

the relationship among the temperature,

volume, and pressure of a gas when the

number of particles is constant.

The Combined Gas Law

3.2 The Gas Laws

The Combined Gas Law

A cylinder that contains air at a pressure

of 100 kPa has a volume of 0.75 L. The

pressure is increased to 300 kPa. The

temperature does not change. Find the

new volume of air.

The Combined Gas Law

3.2 The Gas Laws

Read and Understand

What information are you given?

The Combined Gas Law

3.2 The Gas Laws

Read and Understand

What information are you given?

P1 = 100 kPa P2 = 300 kPa V1 = 0.75 L

The Combined Gas Law

3.2 The Gas Laws

Plan and Solve

What unknown are you trying to

calculate?

What expression can you use?

The Combined Gas Law

3.2 The Gas Laws

Plan and Solve

What unknown are you trying to

calculate?

What expression can you use?

The Combined Gas Law

3.2 The Gas Laws

Plan and Solve

Cancel out the variable that does not change

and rearrange the expression to solve for V2.

Replace each variable with its known value.

The Combined Gas Law

3.2 The Gas Laws

Plan and Solve

Cancel out the variable that does not change

and rearrange the expression to solve for V2.

Replace each variable with its known value.

The Combined Gas Law

3.2 The Gas Laws

Look Back and Check

Is your answer reasonable?

The Combined Gas Law

3.2 The Gas Laws

Look Back and Check

Is your answer reasonable?

Volume should decrease as pressure

increases. The pressure tripled from 100 kPa

to 300 kPa. The answer, 0.25 L, is one third the

original volume, 0.75 L.

The Combined Gas Law

3.2 The Gas Laws

1. A gas has a volume of 5.0 L at a pressure

of 50 kPa. What happens to the volume

when the pressure is increased to 125 kPa?

The temperature does not change.

The Combined Gas Law

3.2 The Gas Laws

2. Gas stored in a tank at 273 K has a

pressure of 388 kPa. The safe limit for the

pressure is 825 kPa. At what temperature

will the gas reach this pressure?

The Combined Gas Law

3.2 The Gas Laws

3. At 10ºC, the gas in a cylinder has a

volume of 0.250 L. The gas is allowed to

expand to 0.285 L. What must the final

temperature be for the pressure to remain

constant? (Hint: Convert from degrees

Celsius to kelvins using the expression ºC +

273 = K.)

The Combined Gas Law

3.2 The Gas Laws

Balloons like this one are

used by scientists to

gather data about Earth’s

atmosphere. The balloon is

filled with hydrogen or

helium. It carries a

package of weather

instruments up into the

atmosphere.

The Combined Gas Law

3.2 The Gas Laws

The gas laws explain the

behavior of the gas in the

balloon.

The Combined Gas Law

3.2 The Gas Laws

Assessment Questions

1. What causes the pressure to increase if more gas

particles are added to a closed container?

a. an increase in the number of collisions between the gas

and the container walls

b. a decrease in the volume of the container

c. a decrease in the size of each particle as the number of

particles increases

d. an increase in the number of collisions between air

particles and the outside of the container

3.2 The Gas Laws

Assessment Questions

1. What causes the pressure to increase if more gas

particles are added to a closed container?

a. an increase in the number of collisions between the gas

and the container walls

b. a decrease in the volume of the container

c. a decrease in the size of each particle as the number of

particles increases

d. an increase in the number of collisions between air

particles and the outside of the container

ANS: A

3.2 The Gas Laws

Assessment Questions

2. When first blown up, a balloon is firm because of the air pressure inside it. However, after time, the balloon becomes soft as the air pressure inside drops. What could have caused the air pressure to decrease?

a. increase in air temperature

b. decrease in the balloon's volume

c. decrease in the number of air particles as they leaked out of the balloon

d. a chemical reaction between the air particles and the balloon

3.2 The Gas Laws

Assessment Questions

2. When first blown up, a balloon is firm because of the air pressure inside it. However, after time, the balloon becomes soft as the air pressure inside drops. What could have caused the air pressure to decrease?

a. increase in air temperature

b. decrease in the balloon's volume

c. decrease in the number of air particles as they leaked out of the balloon

d. a chemical reaction between the air particles and the balloon

ANS: C

3.2 The Gas Laws

Assessment Questions

3. A gas has a volume of 15 L, a temperature of

300 K, and an unknown initial pressure. Then, the

gas expands to 30 L, remains at 300 K, and has a

pressure of 300 kPa. What was the initial pressure

of the gas?

a. 150 kPa

b. 600 kPa

c. 330 kPa

d. 570 kPa

3.2 The Gas Laws

Assessment Questions

3. A gas has a volume of 15 L, a temperature of

300 K, and an unknown initial pressure. Then, the

gas expands to 30 L, remains at 300 K, and has a

pressure of 300 kPa. What was the initial pressure

of the gas?

a. 150 kPa

b. 600 kPa

c. 330 kPa

d. 570 kPa

ANS: B

3.2 The Gas Laws

Assessment Questions

4. According to Charles’s law, the relationship

between the temperature and the volume of a gas

is

a. direct.

b. inverse.

c. exponential.

d. inverse square.

3.2 The Gas Laws

Assessment Questions

4. According to Charles’s law, the relationship

between the temperature and the volume of a gas

is

a. direct.

b. inverse.

c. exponential.

d. inverse square.

ANS: A

3.2 The Gas Laws

Assessment Questions

1. When the temperature of the gas in closed

container is increased, the pressure increases.

True

False

3.2 The Gas Laws

Assessment Questions

1. When the temperature of the gas in closed

container is increased, the pressure increases.

True

False

ANS: T