Force and Pressure PDF

Summary

This document provides an introduction to force and pressure, concepts in physics. It discusses how forces can change the state of rest or motion of an object. The text also explains the use of force in daily life.

Full Transcript

1 Force and Pressure

A football player kicks
the ball with his foot,
applying a force and
directing the ball into
a particular part of the
ground.
"Force is an action
exerted on an object
which may change
the object’s state of
rest or motion."

1. Introduction
The word ‘force’ is frequently used in our day to day life. A football resting on the ground,
remains motionless, until you kick it. Your science book rests on the table until you pick it
up. If you hold your book above the ground, then let it go, gravity pulls it to the floor. In
each of these cases, the motion of the ball or book was changed by something pushing or
pulling on it. Thus, an object will speed up, slow down, or turn only if someone is pushing
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or pulling on it.

The magnitude of force is
measured in terms of
Newton, named after Sir
Isaac Newton(1642–1727),
whose work contributed
much to the modern
understanding of force and
motion.

Sir Isaac Newton
  
NCERT Basics : Class 8
We always see or feel the effect of a force. If can only be explained by describing what
happens when a force is applied to an object.
Pushing, hitting and pulling of objects are some ways of bringing objects in motion. They
move because we make a force act on them.
2. Force
A push or a pull acting on some object is called a force.
SI unit of force – Newton ; C.G.S. unit of force – Dyne
1 Newton = 105 Dyne

(a) Pushing a trolley (b) Pulling an aeroplane (c) Player kicking a football
Force - a push or a pull

1

Table given below contains some examples of familiar situations involving motion of
objects. Each situation has been classified and grouped as a push and/or a pull.
Action : (pushing/ pulling /picking / Action can
Description of the hitting / lifting / lowering/flying/ be grouped
S. No.
situation kicking/ throwing/shutting/ as a
flicking) Push Pull

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1 Moving a book placed on Pushing Pulling Lifting — Yes Yes
a table
2 Opening or shutting a Pushing Pulling Shutting — Yes Yes
door
3 Drawing a bucket of Lowering Pulling — — No Yes
water from a well
4 A football player taking a Kicking Pushing — — Yes No
penalty kick
5 A cricket ball hit by a Hitting Pushing Flicking — Yes No
batsman
6 Moving a loaded cart Pushing Pulling — — Yes Yes
7 Opening a drawer Pulling — — — No Yes


 Physics
3. Forces are due to an interaction
Let us consider a man standing behind a stationary car. Now, if the man begins to push the
car, that is, he applies a force on it, the car may begin to move in the direction of the
applied force [see figure]. The man ‘pushes’ the car to make it move.

A car being pushed by a man

From this example, we can conclude that at least two objects must interact for a force to
come into play. Thus, an interaction of one object with another object results in a
force between the two objects. Some other examples of interaction between two objects
are given in figure (a) and figure (b).
Forces are always exerted by one object on another object i.e., to apply force atleast two
objects are required.

(a) Men pushing each other during arm wrestling (b) Two wrestlers applying force on each
other while wrestling
Interaction between two objects
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4. Exploring forces
In the game of ‘tug-of war’, two teams pull a rope in opposite directions (see figure).
Members of both the teams try to pull a rope in their direction. Sometimes the rope simply
does not move. The team that pulls harder, that is, applies a larger force, finally wins the
game.

Tug of war : Rope will not move if the two teams pull with equal force

NCERT Basics : Class 8
Quantities that have both magnitude and direction, are called ‘vectors’. Quantities that are
just numbers without any direction, are called ‘scalars’.
Since the effect of a force depends on both magnitude and direction, force is a vector
quantity. A force vector points in the direction of the force, and its length is proportional
to the magnitude of the force.

2

1. Take a heavy box which can be moved only by pushing hard. Try to push it by yourself [see
figure]. Let's assume you are able to push the box with some difficulty. Now, ask one of
your friends to help you in pushing it in the same direction. You can see that, now, it is
easier to move the box.
2. Now, push the same box, but ask your friend to push it from the opposite side. You can see
that, now, it is very difficult to move the box. The box will not move if both you and your
friend apply same force. If the box moves, it will surely move in the direction of greater
force.

300 N
400 N

Active physics 2

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Conclusion : Forces applied on an object in the same direction add to one another. If the
two forces act in the opposite directions on an object, the net force acting on it is the
difference between the two forces.
A force can be of different magnitudes i.e., one force can be greater or smaller than the
other. The strength of a force is measured by its magnitude. Also, we should specify the
direction in which a force acts. If the direction or the magnitude of the applied forces
change, their effect also changes.
If many forces are acting simultaneously on an object, the effect on the object is due
to the net force acting on it.
The combination of all the forces acting on an object is called net force. The net force acting
on an object is also referred as the total force, the resultant force, or the unbalanced force
acting on the object.


 Physics

1

You are facing eastward, standing in front of a gate
that can swing. In what direction is your force if you The ‘state of motion’
pull the gate or push the gate? of an object is described
by its speed and the
Explanation direction of motion. The
Since you are facing eastward, to pull on the gate you state of rest can be
have to apply force in west direction i.e., westward. To considered as ‘the state
of motion with zero
push on the gate, you have to apply force in east speed’.
direction i.e., eastward.

3

1. Suppose you and your friend are pushing a door of a room from opposite sides. Let you are
trying to close the door while your friend is trying to open it. Initially, the door is going
nowhere i.e., neither it is getting closed nor it is opening [see figure (a)]. This is because
you and your friend are applying same force on the door.
2. Now try to increase your force and ask your friend to do the same. Suppose at some stage
your force becomes more than your friend then, the door will get closed. This is because
the door will move in the direction of net force acting on it [see figure (b)].
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(a) Door is not moving because the (b)Door is closing because the force
forces exerted on it are equal pushing the door to close is greater
but in opposite directions. than the force pushing it open.

Active physics 3

If the resultant of all forces acting on a body is zero, the forces are called balanced forces.
If the resultant of all forces acting on a body is not zero, the forces are called unbalanced
forces.

NCERT Basics : Class 8

 Unit of force should always be taken in MKS system.

1

1. Arun pushes a box with a force of 50 N [see figure (a)]. The box moves slightly. He
requests Varun to help him. Varun also pushes with a force of 50 N [see figure(b)].
The box now moves easily. Now, what is the net force acting on the box?

50 N 50 N

50 N

(a) (b)

Numerical ability 1 (1) Decode the problem
Solution Analyse the direction of
Since, the forces applied by Arun and Varun are in same forces.

directions, the net force acting on the box is equal to sum of Same✓/Opposite

forces applied by Arun and Varun.
If forces are in same
Net Force = force applied by Arun + force applied by Varun direction, add them.
= 50 N + 50 N = 100 N

2. (a) If Arun and Varun push the box from opposite ends with the same force Publishing\PNCF\2024-25\LIVE Module\SET-1\NCERT\8th\Physics\1_Force and Pressure

[see figure (a)], what do you think will happen? What would be the net force?
(b) Suppose Arun pushed extra hard with a force of 60 N [see figure (b)]. What do
you think will happen? What will be the net force?

50 N 50 N
50 N 60 N
(a) (b)
Numerical ability 1 (2)


 Physics
Solution
(a) The box will not move because the forces acting on
it are equal in magnitude but opposite in direction. Decode the problem
Since, the forces are in opposite directions, the net Analyse the direction of
force will be the difference of the forces acting on forces.
the object. Same/Opposite✓
The net force on the box = 50 N – 50 N = 0 N.
(b) Again, in this case, the forces are in opposite If forces are in opposite
directions. direction, subtract them.
Thus, the net force on the box = 60 N – 50 N = 10 N.
The box will move but with some difficulty as the
force acting on it is quite less.
3. In a tug-of war (see figure), the three members of team A pull with a force of 120 N,
100 N and 135 N. The three members of team B pull with a force of 120 N, 105 N and
130 N. Which team will win?

Team A Team B

Numerical ability 1 (3)
Solution
Total force applied by team A = 120 N + 100 N + 135 N Decode the problem
Analyse the direction of
= 355 N
forces.
Total force applied by team B = 120 N + 105 N + 130 N
Same/Opposite✓
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= 355 N
Net force on the rope = Force applied by A – Force
If fores are in opposite
applied by B
direction, subtract them.
= 355 N – 355 N = 0 N
Since, the net force on the rope is zero, it will not go
either way i.e., no team will win, its a tie !!

5. Effects of force
Force can change the state of motion
A change in either the speed of an object, or its direction of motion, or both, is described as
a change in its state of motion. A force can bring a change in the state of motion of an
object.

NCERT Basics : Class 8

4
1
1. Take a rubber ball and place it on a table top. Now,
gently push the ball along the level surface. You will
observe that the ball begins to move (see figure).
Now, push the ball again while it is still moving.
There will be a change in its speed, it may increase
or decrease depending on the direction of force Active Physics 4
applied by you.
2. Now, place your palm in front of the moving ball. Remove your palm as soon as the moving
ball touches it. Here, your palm does not apply a force on the ball. Thus, the speed of the
ball does not change.
3. Now, let your palm hold the moving ball. You will observe that the ball stops i.e., the speed
of ball decreases to zero.
Conclusion : These observations suggest that a force applied on an object may change its
speed. If the force applied on the object is in the direction of its motion, the speed of the
object increases. If the force is applied in the direction opposite to the direction of motion,
then it results in a decrease in the speed of the object.
Force can move a stationary object
A force can cause a stationary object to move, as when you throw a ball. Some examples of
this are shown in figure (a) and figure (b).

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Making an object move from rest.
Force can stop a moving object
A force can cause a moving object to stop, as when you catch a ball. Some examples of this
are shown in figure.

(a) A goalkeeper stopping the ball (b) A cyclist applying brakes to stop bicycle
Stopping an object by applying force on it.


 Physics

1

1. How does the speed of an object travelling in a straight line change if a non zero net force
acts in the direction of motion of the object?
2. Suresh and Ramesh are applying forces on a table. If the table is not moving, what can you
predict about their forces? Neglect any other forces (like friction) acting on the table.
3. A fielder catches a ball in the game of cricket. How are the directions of force and the
velocity of ball related?
Force can increase or decrease the speed of a moving object
A force can cause a moving object to increase or decrease its speed. For example, when you
kick a moving football in the direction of its motion, its speed increases. When you apply a
gentle brake in your bicycle, its speed decreases as the applied force is opposite to the
motion of the cycle. Some examples of this are shown in figure.

Push
F F
Speed Speed
Pull

(a) Force exerted in the direction of velocity (b) Force exerted in opposite direction of velocity

Changing the speed of an object by applying force on it

5

Take a ball and place it on a table top. Make the ball move by giving it a push [see figure
(a)]. Now place the ruler from your geometry box in its path. In doing so, you will apply a
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force on the moving ball. You will observe that the ball changes its direction after it strikes
the ruler [see figure (b)]. Now, repeat this activity of obstructing the moving ball by the
ruler by making different angles to its path. In each case you will observe that the direction
of motion of the ball is different after it strikes the ruler which depends on the placement
of the ruler.

(a) A ball set in motion by pushing it. (b) Direction of motion of the ball
Active physics 5 changes after it strikes the ruler
placed in its path

NCERT Basics : Class 8
Conclusion : A force can change the direction of moving object. A force can be applied to
obtain any desired direction of an object.
Force can change the direction of a moving object
A force can cause a moving object to change its direction. For example, in the game of
cricket, a batsman applies a force to change the direction of the ball coming towards him.
Some examples of this are shown in figure.

A batsman changing the direction of the ball using his bat

Force can make an object to rotate
If an object (like a fan), is free to rotate about an axis, a force applied on it can cause its
rotation. For example, force of wind causes a windmill to rotate [see figure (a)] ; a person
driving a car rotates the steering through the force applied by his hands [see figure (b)].

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(a) A windmill (b) A person rotating a car steering
Causing rotation by the application of a force

1

1. Whenever the net force applied on an object is in the direction of its motion, the speed of
the object increases.
2. Both are applying forces which are equal in magnitude but opposite in direction. So, the
net force on the table is zero.
3. Velocity and force are in opposite directions, that is why the ball comes to rest (or stopped).


 Physics
Force can change the shape of an object
A force may bring about a change in the shape of an object. For example, stretching or
compressing a spring changes its shape, pressing a rubber ball changes its shape. An
example of this is shown in figure.

(a) Original shape of ball (b) Pressing the ball changes its shape
Force can change the shape of an object.

6

Take a lump of dough (wheat flour mixed with water) on a kitchen platform (see figure).
Now, press it down with your hands. You will observe that there will be the change in the
shape of dough whenever you press it. Also, the dough remains at rest before and after
applying a force i.e., in this case there is a change in the shape of an object but there is no
change in its state of rest or motion.

Active physics 6
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Conclusion : An object can not change its shape by itself, a force is required to change its
shape. A force does not necessarily cause a body to change its state of rest or motion.
6. Types of forces
Contact forces
When you press the keys on a computer keyboard, your fingers exert a force on the keys.
This force can be exerted only when your fingers are touching the keys.
 A force that is exerted only when two objects are touching is called contact force. A
contact force can be small, such as the force you exert to push a pencil across a sheet of
paper, or large, such as the force exerted by a traffic crane as it pulls a car along a street.
Some examples of contact forces are shown in figure.

NCERT Basics : Class 8

(a) A karate fight (b) Stretching a bowstring
Examples of contact forces
1. Muscular force
When you push an object like a school bag or lift a bucket of water, the force comes from
the action of muscles in your body. (see figure)

Examples of muscular forces
The force resulting due to the action of muscles is known as the muscular force.
Animals also make use of muscular force to carry out their physical activities and other
tasks. Animals like bullocks, horses, donkeys and camels are used to perform various tasks
for us. In performing these tasks they use muscular force.

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Muscular force of animals is used to carry out many difficult tasks
If you pull on a spring, the spring stretches. If you pull hard enough on a wagon, the wagon
moves. When you kick a football, it deforms briefly and is set in motion. These are all
examples of contact forces, so named because they result from physical contact between
two objects.

2. Friction
You must have seen that a ball rolling along the ground gradually slows down and finally
comes to rest. When you stop pedaling a bicycle, it gradually slows down and finally comes
to stop. A car or a scooter also comes to rest once its engine is switched off. Similarly, a
boat comes to rest if you stop rowing it.


 Physics
In all the above situations no force appears to be acting on the objects, yet their speed
gradually decreases and they come to rest after some time. Since, there is a change in their
state of motion, some force must be acting on them. This force which is responsible for
changing the state of motion of objects in all the above examples is the force of friction.
Friction is a force that resists motion. Friction is found everywhere in our world. You
feel the effects of friction when you swim, ride in a car, walk, and even when you sit on a
chair. Friction can act when an object is moving or when it is at rest. Figure shows some
common examples of friction.

(a) Friction is more between ball and grass, (b) Friction is less between sledge and ice
hence ball stops
Effects of frictional force

2

Suppose you are rowing a boat in water. What Since the force of
friction arises due to
happens when you stop rowing?
contact between surfaces,
Explanation it is also an example of a
Once you stop rowing, friction between water and the contact force.
boat brings it to a stop in some time. The force of friction
always acts on all the moving objects and its direction is
always opposite to the direction of motion.
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3. Tension
Tension is a force exerted by string, ropes, fibers, and cables when they are pulled. A spider
web consists of numerous fine strands that pull on one another (see figure). We say that
the strands are under tension. Thus, tension keeps the spider web together.

(a) Tension keeps this spider web together (b) Two children pulling the rope, a tension
force is exerted by the rope on them.
Examples of tension force

NCERT Basics : Class 8
Non contact forces
When you jump up in the air, you are pulled back to the ground, even though nothing
seems to be touching you. Forces can be exerted by one object on another even though
they aren’t touching each other. The force pulling you down to Earth is the gravitational
force exerted by Earth. This force is a noncontact force.
A non contact force is a force that one object exerts on another when they are not
touching. Non contact forces include the gravitational force, the electric force, and the
magnetic force.
1. Magnetic force
The force exerted by a magnet on a piece of iron or on another magnet is called magnetic
force. Like (or similar) poles repel while unlike (or opposite) poles attract (see figure).
S N N S
Repulsive
N S S N
Repulsive
S N S N
Attractive
Force between two magnets

7
4

Take a pair of bar magnets. Place one of the magnets over three round shaped pencils. Now
bring one end of the other magnet near the end of the magnet placed on the pencils (see
figure). Make sure that the two magnets do not touch each other. You may observe a
repulsion or attraction. Suppose you observe a repulsion in first case. Now, bring the other
end of the magnet near the same end of the magnet placed on the pencils. This time you
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will observe an attraction.
Conclusion : One magnet exerts a force on other magnet without actual physical contact
with it. This force may be attractive or repulsive depending on the nature of poles. Like
poles repel, unlike poles attract.

Attraction between unlike poles
Active physics 7


 Physics
2. Electrostatic force
The electrons in an atom move around the nucleus. What keeps these electrons close to the
nucleus? The positively charged protons in the nucleus exert an attractive force on the
negatively charged electrons. All charged objects exert a force on each other. This force is
called electrostatic force or electric force.
The force exerted by a charged body on another charged body or uncharged body is known
as electrostatic force. The electrostatic force between two charges can be attractive or
repulsive (see figure). Objects with the same type of charge repel one another and objects
with opposite charges attract one another i.e., ‘like charges repel and unlike charges
attract’.

+ +

+ – – –

(a) Attraction between unlike charges (b) Repulsion between like charges

Electrostatic force between two charges

3

You know that a coin or a pen falls to the ground when it slips off your hand. Is there
any force acting on them? Explain.
Explanation
When the coin is held in your hand it is at rest. As soon as it is released, it begins to move
downwards. It is clear that the state of motion of the coin undergoes a change. This is not
possible without a force acting on it. Yes, there is a force acting on them, ‘the force of
gravity’.
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3. Gravitational force
The leaves or fruits fall to the ground when they get detached from the plant. The skydiver
(see figure) is also being pulled downward, even though there seems to be nothing
touching him. Have you ever wondered why is it so? Objects fall towards the Earth because
it pulls them. This force is called the gravitational force or force of gravity, or just
gravity.

A skydiver is pulled downward by the gravitational force

NCERT Basics : Class 8

2

State the direction of the named force acting on the object in italics.
1. The force of gravity exerts a force on a falling leaf.
2. A hockey stick experiences friction on rough ground as it slides northward.
3. The force of the wind is pushing against a cyclist who is cycling eastward.

7. Pressure
What happens when you walk on soft snow or dry sand? Your feet sink into the snow or
sand and walking can be difficult. If you ride a bicycle with narrow tires over these
surfaces, the tires will sink even deeper than your feet. How deep you sink depends on
your weight as well as the area over which you make contact with the sand or snow.
For example, when you stand on snow with your normal shoes, you may sink deep into the
soft snow [see figure (a)]. However, if you use special kinds of supports (or snow boards)
having larger area than your shoes [see figure (b)], you can stand on the snow very easily.

(a) (b)

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Understanding pressure
In both cases, your weight exerts a downward force on the snow. What changed was the
area of contact between you and the snow. By changing the area of contact, you changed
the ‘pressure’ you exerted on the snow due to your weight. When you stood with supports
(or snow boards), the area of contact increased, so that the same force was applied over a
larger area. As a result, the pressure that was exerted on the snow decreased and you
didn’t sink as deep.
 Pressure is the force per unit area that is applied on the surface of an object

Force
Pressure =
Area


 Physics
Unit of pressure
Since pressure is force per unit area thus, unit of
pressure is Newton per square meter and in short it is Pressure is inversely
proportional to the
called ‘pascal’ i.e.,
area of contact. So, the
SI unit of pressure – Pascal ; smaller the area, the
larger is the pressure
C.G.S unit of pressure – dyne cm–2. on a surface for the
same force.
1 Pascal = 1 Newton/(meter)2
or 1 Pa = 1 N/m2 = 1 N m–2

 Take all the units in same system either in MKS or CGS system.
 We know, 1 m = 100 cm
Therefore, 1 m2 [1m × 1m] = 100 cm × 100 cm = 10000 cm2 = 104 cm2.
1
1 cm2 = m2 = 10–4 m2
104

1 m = 103 mm
1 m2 = 106 mm2
1 mm2 = 10–6 m2
 Area is always in square units.
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r
22
 Area of circle = r2   = 
or 3.14 
 7 

 Area of rectangle = × b b



 Area of square = side × side a
= a × a = a2
a

NCERT Basics : Class 8

2

1. A force of 20 N acts over a surface having an area of 4 m 2.
Decode the problem
What is the pressure on this surface?
To find the pressure,
Solution we should know the
Given, force = 20 N ; area = 4 m2 ; pressure =? formula
20 force
We know that, pressure = = 5 N/m2 pressure =
4 area
2. A pressure of 50 N/m2 acts on an area of 5 m2. Calculate the total force acting on the
given area.
Decode the problem
Solution
Identify the formula
Given, pressure = 50 N/m2 ;
force
area = 5 m2 pressure =
area
; force =? F=P×A
or Force = 50 × 5
= 250 N
3. A force of 800 N exerts a pressure of 40 N/m2. What area is it acting on?
Solution
Decode the problem
Given, pressure = 40 N/m2 ;
Identify the formula
force = 800 N ;
area =? force
pressure =
800 area
or Area =
40 F
 Area =
= 20 m2 P
4. A person weighs 600 N. He is wearing shoes with a total area of 0.02 m 2. What

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pressure do they exert on the floor?
Decode the problem
Solution
Identify the formula
Given, force = 600 N ; area = 0.02 m2 ; pressure =? force
pressure =
pressure = 600 = 30,000 N/m2 area
0.02

4

When you push a nail using a hammer into a wooden plank by its head, the nail
cannot be inserted in the plank. When you push the nail by the pointed end, the nail
can easily be inserted in the plank. Why?


 Physics
Explanation
Hammer
When you apply a force on the nail using a hammer with
its head touching the wooden plank, the pressure exerted
on the plank is quite small. This is because pressure is
nail
inversely proportional to area i.e., the larger the area,
smaller the pressure on a surface for the same force.
When you apply the same force on the nail with its Applying force on a nail with
its pointed end touching the
pointed end touching the plank, pressure exerted on the plank
plank is sufficient to insert it into the plank (see figure).
This is because the area of the pointed end of the nail is much smaller than that of its head.
 Strong winds during a storm or a cyclone can blow away even the rooftops. The winds and
cyclones are caused by the difference in air pressure.

2

1. Since, the force of gravity acts vertically downward on an object, here also, it acts vertically
downward on a falling leaf.
2. A force of friction opposes the motion of an object. Since hockey stick is moving
northwards, it experiences a force of friction in opposite direction i.e., southwards.
3. Here, the cyclist is moving eastwards and a force of wind is pushing against’ him. This
means the force of wind is opposite to him i.e., westwards.
Some common examples related to pressure
(1) If you try to cut vegetables with a blunt knife, you will not succeed. But, if you use a
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sharp knife, it is quite easy to cut the vegetables. This is because the area of sharp edge
of the knife is quite small and thus, pressure is large enough to cut the vegetables.
(2) The straps of shoulder bags are made wide (broad).
This is because the wide straps has larger area so
that the pressure exerted on the shoulder becomes
quite small. Thus, it becomes quite comfortable to
carry such shoulder bags.
A porter carrying a heavy load
(3) Porters place on their heads a round piece of cloth,
when they have to carry heavy loads (see figure). By this they increase the area of
contact of the load with their head. So, the pressure on their head is reduced and they
find it easier to carry the load.

NCERT Basics : Class 8
8. Pressure exerted by liquids (hydrostatic pressure) and gases
Liquids and gases are fluids, which are materials that can flow and have no definite shape.
Like solid objects, fluids can exert pressure (or forces).
Fluid pressure is measured in pascal and also in mm of Hg.

8

Take a transparent hollow glass tube of length about 15
cm and diameter of about 2.5 cm. Take a good quality
rubber balloon and tie it using thread on one end of the
tube. Hold the tube from the middle to keep it in a
vertical position [see figure (a)]. Ask one of your friends (a) (b)
to pour some water in the tube. You will observe that the Active physics 8
rubber balloon bulges out [see figure (b)].
As you increase the height of the water column in the pipe, the bulge in the balloon will
increase.
Conclusion : Liquids exert pressure on the surfaces (objects) in contact. More the height of
liquid column above a surface, more will be the pressure on that surface.

9

Take a big soft drink bottle. Take a cylindrical glass tube of length
about 6 cm. Now, heat one end of the glass tube and then quickly
insert it near the bottom of the bottle (see figure). Next, paste
some adhesive material around the tube-bottle joint to avoid the

Publishing\PNCF\2024-25\LIVE Module\SET-1\NCERT\8th\Physics\1_Force and Pressure
leakage of water from the joint. Cover the mouth of the glass tube
with a good quality rubber balloon using a thread. Now fill the
bottle up to half with water. You will observe that the rubber
balloon fixed to the glass tube bulges. Pour some more water in Active physics 9
the bottle. You will observe that this bulge increases.
Conclusion : Again, this activity shows that liquids can exert pressure on an object which
is proportional to the height of liquid column above the object.
 It is true for any liquid that ‘the pressure depends only on the height of the column of
fluid above the surface where you measure the pressure’. It does not depends on the
area of the surface in contact or the shape of the liquid column (see figure on next page).
The greater the height of the column of fluid above a surface, the greater is the pressure
exerted by the fluid on the surface.


 Physics

Pressure depends only on the height of the fluid above a surface, not on the shape of the vessel.
Pressure at the bottom of each section of the vessel is same.

Pressure and depth
Figure shows how pressure changes with depth. At the top of the glass filled with water, the
water pressure is zero because there is no column of water above that level. Pressure in the
middle of the glass depends on the column of water from the top of the glass to the middle of
the glass. Pressure at the bottom depends on the entire height of the water. Pressure
increases with depth because the column of water pushing down becomes taller and heavier.

Increasing
pressure

The pressure exerted by a fluid increases as the depth in the fluid increases.

10

Take a big soft drink bottle. Drill four holes all around near
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the bottom of the bottle at the same height from the bottom
(see figure). Now fill the bottle with water. You will observe
that the water coming out of the holes falls at the same
Active physics 10
distance from the bottle.
Conclusion : The liquid exerts pressure on all side of the wall not just on the bottom. This
pressure depends on the depth in the liquid.

Pressure acts in all directions
Figure shows that the fluid exerts pressure on each face of the cube or from all sides of a
submarine, not just on their tops. This pressure is perpendicular to the surface, and the
amount of pressure depends only on the depth in the fluid.

NCERT Basics : Class 8

Submarine
Cube

Pressure Pressure

The pressure on all objects in a fluid is exerted on all sides, perpendicular to the surface of the
object, no matter what is its shape.

Similar to liquids, gases also exert pressure on the walls of their containers.
A force applied to a fluid (liquid or gas) creates pressure. Pressure acts in all directions, not
just the direction of the applied force. When you inflate a car tyre, you are increasing the
pressure in the tyre. This force acts up, down, and sideways, in all directions inside the tyre.

3

1. Why do the tools meant for cutting and piercing always have sharp edges?
2. In figure, two identical bricks are placed on a table in two different ways (A and B). In
which case, the pressure on the table is more and why?

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Check your concepts 3(2)

3. What happens when you push down on an inflated balloon?
9. Atmospheric pressure
Though you don’t feel it, you are surrounded by a fluid that exerts pressure on you
constantly. That fluid is air or atmosphere surrounding the Earth.
The envelop of air surrounding the Earth is known as the atmosphere.
The atmosphere at Earth’s surface is only about 1/1000 times as dense as water. But, the
atmospheric air extends up to many kilometres above the surface of the earth which is
large enough to exert a large pressure on the objects at Earth’s surface.


 Physics
The pressure exerted by the air present in the atmosphere is
known as atmospheric pressure. Atmospheric pressure on our
body is a result of the weight of the atmosphere exerting force on
our body. Atmospheric pressure is approximately 100,000 N/m2
at sea level.
A manometer is used to measure pressure. A barometer is used
to measure the atmospheric pressure.
Suppose the area of your head is 10 cm × 10 cm which is equal to
(10/100) m × (10/100) m = 0.01 m2.
Therefore, the weight (force) of air on your head is 100,000 Pressure on your head
N/m2 × 0.01 m2 = 1000 N.
This means weight (force) of air in a column of the height of the atmosphere and area 10
cm × 10 cm (see figure) is as large as 1000 N.

5

The force pushing down on your body due to atmospheric pressure is as large as the
weight of a luxury car. Then, why doesn’t this pressure cause you to be crushed?
Explanation
Your body is filled with fluids such as blood that also exert pressure. The pressure exerted
outward by the fluids inside your body is equal to the atmospheric pressure. This pressure
inside your body cancels the pressure exerted from outside by the atmosphere. Thus, you
are not crushed under this large force due to the atmospheric pressure.
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You don’t feel the atmospheric pressure because there is an equal, internal pressure
pushing out from the inside of your body. This internal pressure balances the external
pressure exerted on you by the atmosphere.

6

What happens to the atmospheric pressure if you go at higher altitudes or walk up
on a mountain?
Explanation
If you start at the base of a mountain and walk up, the height of the column of air above
you decreases. This means, with increasing elevation, the amount of air above you
decreases, and thus, the atmospheric pressure also decreases.
As you go higher in the atmosphere, atmospheric pressure decreases.

NCERT Basics : Class 8

3

1. Tools meant for cutting and piercing always have sharp edges because their edges have
small areas which create a large pressure on the surface to make the cutting or piercing
quite easy.
2. In the case B, the pressure on the table is more because the area of contact of the brick
with the table is small (smaller the area of contact, larger will be the pressure on the
surface).
3. The downward force you apply creates forces that act sideways as well as down
(see figure). As a result, the shape of balloon changes from all sides. This means a
downward push on the balloon creates pressure in all directions.

Applied force

Fluid
(gas) Pressure

Check your answers 3 (3)

11

Take a good quality rubber sucker. It looks like a small rubber cup [see figure (a)]. Press it
hard on a smooth plane surface. You will observe that the sucker stick to the surface [see
figure (b)]. This is because when you press the sucker, most of the air between its cup and
the surface escapes out. The sucker sticks to the surface because the pressure of
atmosphere acts on it. Now try to pull it off the surface. You have to apply a large force to

Publishing\PNCF\2024-25\LIVE Module\SET-1\NCERT\8th\Physics\1_Force and Pressure
overcome the atmospheric pressure.
Conclusion : The magnitude of atmospheric pressure is very large. In fact, it would not be
possible for any human being to pull the sucker off the surface if there was no air at all
between the sucker and the surface.

(a) A rubber sucker (b) Pressing the sucker on a smooth surface
Active physics 11


 Physics
Did you know?
Otto von Guericke, a German scientist of the 17th century, inverted a pump to extract air
out of a vessel. With the help of this pump, he demonstrated dramatically the force of the
air pressure. He joined two hollow metallic hemispheres of 51 cm diameter each and
pumped air out of them. Then he employed eight horses on each hemisphere to pull them
apart shown below. So great is the force of air pressure that the hemispheres could not be
pulled apart.

Horses pulling the hemispheres
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NCERT Basics : Class 8

Concept Map

Normal Muscular Gravitational Electrostatic Magnetic
force force Friction Tension force force force

Contact force Non-Contact

The sum of all Types of forces
forces acting Net force
on a body

Net force = 0 Balanced
force Force Pressure
And
Pressure
Unbalanced
Net force 0
force

Atmospheric
The equilibrium pressure
Net force acting
on system is zero rule
Mercury barometer
Effect of force

Can change Can move a Can stop Can change Can change Can make
stationary moving direction of shape of an an object

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state
of motion object object object object rotate


 Physics
Some Basic Terms
1. Frequently – Often, Regularly
2. Interaction – When two or more objects have an effect up on one another.
3. Tug-of war – A game in which two teams pull and opposite and of a rope until one drag
the other.
4. Magnitude – It is a number that characterize the size of something.
5. Scalar – Quantities which have only magnitude.
6. Vector – Quantities which have both magnitude and direction.
7. Axis – A line we imagine through the middle of an object around which the object turns.
8. Compressing – To make something fill less space than usual.
9. Gradually – Little by little.
10. Resists – Try to stop something from doing something.
11. Plank – A long flat piece of wood.
12. Directly proportional – Related so that one becomes larger or smaller when the other
becomes larger or smaller.
13. Inversely proportional – Two quantity behave opposite in nature. One becomes larger
when other becomes smaller.
14. Fluid – A substance that can flow.
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NCERT Basics : Class 8

SOLVED EXAMPLES
1. Find the net force on the object due to Solution
forces acting on the object according to Given : FA = 2FB and FB =2FC, FB = 30N
diagram shown  FA = 2 × 30 = 60N
10N
30
20 kg FC = = 15N
20 N 5N 2
 Net force on the block is
Solution
FN = 60 – (30 + 15) = 60 – 45 = 15 N
Force 10 N and 20 N act in same direction
on the object and 5N acts in the opposite towards right.
direction. 4. Three confused sledge dogs are trying to
Net force acting on box pull a sled across the Alaskan snow. Alutia
Fn = 10 N + 20 N – 5 N = 25 N.
pulls west with a force of 35 N, Seward
2. A block of weight 5 N is placed on a
horizontal table. A person pushes the also pulls west but with a force of 42 N,
block from top by exerting a downward and big Kodiak pulls east with a force of
force of 3 N on it. Find the force exerted 53 N. What is the net force on the sledge?
by block on the table.
Solution 35 N 42 N 53 N
The block exerts a downward force equal
to its weight of the block and a pushing
force of 3N downward.
3N Solution
Since the forces are in opposite direction.

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 Net force on the sledge is
Fn = (35 N + 42 N) – 53 N = 24N
5N
5. If an object exerts a force of 45 N over a
Fn = 3N + 5 N = 8 N in downward
direction. surface of dimension 15 m × 20 m, what is
3. Three forces A, B and C are acting on a the pressure exerted by the liquid?
heavy box as shown in figure Solution
B
Given, Force = 45 N
A C
Area = 15m × 20m = 300 m2
Force A is twice of B while B is twice as Force 45N 0.45
Pressure= = 2 = = 0.15 Pa.
compare to that of C. If force B is 30 N, Area 300m 3
then find the resultant force on the box.


 Physics
6. The given figure shows a statue. It exerts
a pressure of 340 Pa on the floor. What is 4m

the force exerted by the statue if base area
1m
of its one foot is 17 cm2 ? 2m

Solution
Given; Force = 20 N
Block dimensions = 2 m × 1 m × 4 m
Pmin.
=?
Pmax.
Solution To find the maximum pressure, the area
Given; pressure = 340 Pa should be minimum and vice versa.
Base area = 17 cm2 = 17 × 10– 4 m2. A1 = 2m × 1m = 2m2
Weight is a force that statue exerts A2 = 1m × 4m = 4m2
downward. A3 = 4m × 2m = 8m2
Force F = 20 N.
So, Pressure =
Area Pmin. F A
=  min.
Pmax. A max. F
Force
340 Pa = A min. A 2 1
17  10−4 m2 = = 1 = = = 1 : 4.
A max. A3 8 4
340  17
F= = 0.578 N 9. Calculate the pressure produced by a
10000
force of 800 N acting on a rectangular