Home PHYSICS TOPIC 4: FORCE | PHYSICS FORM 1

TOPIC 4: FORCE | PHYSICS FORM 1

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TOPIC 4: FORCE | PHYSICS FORM 1

Force

A force is an interaction that causes a change. In mechanics, a force is an interaction that causes a change in velocity (an interaction that causes acceleration).

Concept of Force

The Concept of Force

Explain the concept of force

For better understanding of this concept, let’s ask ourselves the following question:

What causes/makes a body at rest to move?
What causes the same body in motion to stop?

The
answers to these questions, is of course that a force is required to do
so. Here, an applied force to a body can cause the body at rest to move
or if already moving a body application of force can do the following
when applied to a body.

Force can cause a change in the way the object moves
Change its size or shape
Change the direction in which an object is moving

A
force is defined as a push or pulls experienced by an object. The force
is usually described in terms of its size (magnitude) and direction.

The S.I Unit of Force

State the S.I unit of force

The SI unit of force is a Newton (N).

A Newton (1N) can be defined as the amount of force required to give a mass of one kilogram (1kg) an acceleration of 1m/s²

Measuring Instrument (Device)

The instrument that is used to measure the amount of force that is exerted on an object is called spring balance.

A
spring balance can be used to measure small forces. It consists of a
coiled spring fixed to the other end with a hook at the other end. The
body upon which the force acts is attached to the hook. The distance
through which the spring is stretched is directly proportional to the
force applied by the balance.

A pointer is attached to the spring and the force is indicated on a calibrated scale.

Types of Force

Fundamental Types of Forces

Identify fundamental types of forces

There are two main types of forces namely:

Fundamental forces
Non fundamental forces

Fundamental Forces

Fundamental forces are the basic forces in nature that cannot be explained by the action of another force.

There are four types of fundamental forces. These include:

The force of gravity
The electromagnetic force
The strong nuclear force
The weak nucleus force

Force of gravity (weight)

The
force of gravity is the pull by which the earth, moon and other very
large bodies attract other objects towards themselves. It is commonly
referred to as the weight of the object that is attracted.

All
objects on the earth experience a force of gravity that is directed
downwards towards centre of the earth. The earth’s gravitational pull is
so great that it is able to hold most things firmly on the ground.

In mechanics, a freely falling body in the air moves down irrespective of its mass. This is due to force of gravity.

Example 1

A
fruit fall from a tree because the earth exerts gravitational force on
it. The force of gravity on the earth is always equal to the weight of
the object (body).

Force of gravity, W = mass (m) x gravitational acceleration (g).

W= mg

Where acceleration due to gravity on the earth, g = 9.8m/s²

Conclusion, we can say that the force of gravity has the following properties.

It pulls (attracts) objects towards the centre of the earth.
It is directly proportional to the mass of the object. This means that the greater the mass the greater the pull of gravity.
It is strong when the mass is closer to the centre of the earth.

NB: It should be noted that the weight of an object is directly related to its Mass.

Weight, W = mass x g = mg

The g above has two meanings:

It is the gravitation’s field strength (10N/Kg)
It is the acceleration of free fall (10m/s²

Electromagnetic force

This force includes both electric and magnetic force. It is relatively strong.

Example 2

Examples where electromagnetic forces are involved include:

In the formation of molecules of a substance. Atoms attract each other to form molecules. This is due to electromagnetic force.
In two parallel wires carrying current. If places near each other, the electromagnetic force acts on the wires.

Strong nuclear force

This
is the force, which holds of the constitutions (sub atomic particles)
of the atomic nucleus. It acts within the nucleus of the atom.

Weak nuclear force

This is the force which appears only in certain nuclear processes.

The Properties of Each Type of Fundamental Forces

Describe the properties of each type of the fundamental forces

Properties of gravitational forces

The following are the properties of gravitational force

It always attracts objects.

It is the weakest force among the four basic forces.

It is a central force (gravitational force between two objects acts along the line joining the centres of the objects.

It operates over very long distance.

Properties of electromagnetic force include

It may be attractive or repulsive is nature

It is a central force

It is stronger than gravitational force

It is also a long-range force (operates over a very long distance)

Properties of a strong nuclear force:

It is basically an attractive force

It is a non-central force (does not act at the centre)

It is stronger than gravitational force

It is a short-range force that is it operates only up to distance of the order of 10^-14m

Properties of the weak nuclear force

It is much stronger than the gravitational force but weaker than the strong nuclear force and electromagnetic force

It acts on small ranges of up to 10^-17m

Activity 1

CLASS ACTIVITY

Define the term force and give its SI unit.
Mention four fundamental types of force that you know.
Define the following terms: Force of gravity; Strong nuclear force; Electromagnetic force.
A body has a mass of 40kg. Find its weight.

Effects of Force

The Effects of Forces

Identify effects of forces

A force acting on an object may cause the object to change shape, to start moving, to stop moving, to accelerate or decelerate.

When
two objects interact with each other they exert a force on each other,
the forces are equal in size but opposite in direction.

Resultant force

The
forces acting on an object can be replaced with a single force that
causes the object to behave in the same way as all the separate forces
acting together did, this one overall force is called theresultant force.

If the resultant force acting on an object is ZERO then:

The object will remain stationary if it was stationary when the resultant force became zero.

Move at a constant (steady) speed in a straight line if it was moving when the resultant force became zero.

If the resultant force acting on an object is NOT ZERO then:

The object will accelerate or decelerate (speed up or slow down).

The Effects of Forces on Materials

Justify the effects of forces on materials

Example 3

A
rectangular bar having a cross-sectional area of 80 mm2has a tensile
force of 20 kN appliedto it. Determine the stress in the bar.

Example 4

A
circular section cable has a tensile force of 1 kN applied to it and
the force produces a stress of7.8 MPa in the cable. Calculate the
diameter of the cable.