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Transcript 
Unit 1 Lesson 5 Fluids and Pressure
Copyright © Houghton Mifflin Harcourt Publishing Company
Unit 1 Lesson 5 Fluids and Pressure
Feel the Pressure!
What are fluids?
• A fluid is any material that can flow and that
takes the shape of its container.
• A fluid can flow because its particles easily move
past each other.
• Liquids and gases, including water and air, are
fluids.
Copyright © Houghton Mifflin Harcourt Publishing Company
Unit 1 Lesson 5 Fluids and Pressure
Why do fluids exert pressure?
• Pressure is the measure of how much force is
acting on a given area. All fluids exert pressure.
• When you pump up a bicycle tire, you push air
into the tire. Like all matter, air is made of tiny
particles that are constantly moving. The particles
bump against one another and against the walls of
the tire, creating pressure. The particles move in
all directions and act on every part of the tire.
Copyright © Houghton Mifflin Harcourt Publishing Company
Unit 1 Lesson 5 Fluids and Pressure
Why do fluids exert pressure?
• Why does the air in a balloon exert pressure on
the balloon?
Copyright © Houghton Mifflin Harcourt Publishing Company
Unit 1 Lesson 5 Fluids and Pressure
How is pressure calculated?
• Pressure equals force divided by area.
• The SI unit for pressure is the pascal. One pascal
(1 Pa) is the force of one newton exerted over an
area of one square meter (1 N/m2).
• A greater force results in greater pressure.
Pressure also depends on the area over which the
force is exerted. A greater area results in less
pressure.
Copyright © Houghton Mifflin Harcourt Publishing Company
Unit 1 Lesson 5 Fluids and Pressure
Under Pressure
What are two familiar fluids that exert
pressure?
• Because gravity pulls the gases in Earth’s
atmosphere toward Earth’s center, the atmosphere
has weight. The pressure caused by the weight of
the atmosphere is called atmospheric pressure.
• Atmospheric pressure is exerted on everything on
Earth, including you. Atmospheric pressure is
usually expressed in kilopascals (kPa). A kilopascal
is equal to 1,000 pascals.
Copyright © Houghton Mifflin Harcourt Publishing Company
Unit 1 Lesson 5 Fluids and Pressure
What are two familiar fluids that exert
pressure?
• Gravity also pulls water toward Earth’s center. The
weight of water causes pressure on objects under
its surface. Underwater objects also have the
weight of the air above the water pushing down
on them.
• As a result, the total pressure under water is the
sum of the pressures of the atmosphere and the
water above.
Copyright © Houghton Mifflin Harcourt Publishing Company
Unit 1 Lesson 5 Fluids and Pressure
How does depth affect fluid pressure?
• As an object travels deeper into the atmosphere,
the atmospheric pressure increases because the
greater weight of the air exerts a greater force.
• Water pressure also increases as depth increases.
Copyright © Houghton Mifflin Harcourt Publishing Company
Unit 1 Lesson 5 Fluids and Pressure
Thar She Blows!
What are some examples of fluid
motion due to pressure?
• At any given altitude, fluids flow from areas of
higher pressure to areas of lower pressure.
• You can observe this property of fluids by drinking
liquid though a straw and by breathing.
• Air also moves from areas of higher pressure to
areas of lower pressure. This movement of the air
is known as wind.
Copyright © Houghton Mifflin Harcourt Publishing Company
Unit 1 Lesson 5 Fluids and Pressure
Sink or Swim?
What causes buoyant force?
• Buoyant force is an upward force that fluids exert
on all matter.
• When an object is immersed in fluid, pressure is
exerted on all sides of the object. The pressure
exerted to the sides balances out. But because
pressure increases with depth, pressure will be
greater against the bottom of the object than the
top. So overall, the fluid pushes against the object
with an upward, or buoyant, force.
Copyright © Houghton Mifflin Harcourt Publishing Company
Unit 1 Lesson 5 Fluids and Pressure
How is buoyant force calculated?
• The buoyant force acting on an object in a fluid is
an upward force equal to the weight of fluid that
the object displaces.
• This is known as Archimedes’ principle, named
for a Greek mathematician who lived in the third
century B.C.E.
Copyright © Houghton Mifflin Harcourt Publishing Company
Unit 1 Lesson 5 Fluids and Pressure
What can happen as a result of weight
and buoyant force?
• An object in a fluid will float if the object’s weight
is equal to the buoyant force.
• An object in a fluid will sink if the object’s weight
is greater than the buoyant force.
• If the buoyant force on an object is greater than
the object’s weight, the object is buoyed up. The
object moves upward in the fluid until the buoyant
force equals the object’s weight. When this
happens, the object floats.
Copyright © Houghton Mifflin Harcourt Publishing Company
Unit 1 Lesson 5 Fluids and Pressure
What can happen as a result of weight
and buoyant force?
• Will these objects float, sink, or be buoyed up
when submerged in water?
Copyright © Houghton Mifflin Harcourt Publishing Company
Unit 1 Lesson 5 Fluids and Pressure
What affects the density of an object?
• The density of an object equals its mass divided
by its volume.
• A submarine dives by filling its ballast tanks with
seawater. As water flows into the tanks, the
submarine’s mass increases, but its volume stays
the same. Thus, its overall density increases, and
it sinks below the surface.
Copyright © Houghton Mifflin Harcourt Publishing Company
Unit 1 Lesson 5 Fluids and Pressure
What affects the density of an object?
• A submarine rises by emptying its ballast tanks.
This process decreases its mass, which decreases
its density.
Copyright © Houghton Mifflin Harcourt Publishing Company
Unit 1 Lesson 5 Fluids and Pressure
What affects the density of an object?
• Ships float on water because they are built with a
hollow shape. The hollow shape increases the
overall volume of the ship. Increasing the ship’s
volume decreases its density. When the ship’s
density is lower than that of water, the ship will
float.
• Most bony fish have an organ called a swim
bladder. This organ is filled with gases. By
adjusting the volume of gas in its swim bladder,
the fish can move to different depths of water.
Copyright © Houghton Mifflin Harcourt Publishing Company
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