Centripetal Force Formula with Examples (original) (raw)
Last Updated : 23 Jul, 2025
**Centripetal force is a force that operates on a body traveling in a circular direction and is directed toward the center around which the body is moving. When an item moves at a constant speed around a circular route, it encounters an accelerating centripetal force toward the **center.
Table of Content
- What is Centripetal Force?
- Centripetal Force Formula
- Examples of Centripetal Force
- Sample Problems on Centripetal Force
- Centripetal Force Worksheet
**What is Centripetal Force?
In the uniform circular motion of a particle, the centripetal force is the force on the particle which at every instant points radially towards the center of the circle and produces the centripetal acceleration to move the particle in its circular path.
**Centripetal Force Formula
**F c **= m × v 2 /r
Where,
- Fc is the centripetal force
- m is mass
- v is velocity
- r is the radius of the path
**Derivation of Formula
The force of a moving object is
F = ma
PQ + QS = PS
-v1 + v2 = Δv
Δv = v2 - v1
The PQS and AOB triangles are similar. Therefore,
Δv/AB = v/r
AB = vΔt
Δv/v×Δt = v/r
Δv/Δt = v2/r
a = v2/r
Now,
Fc = ma
Therefore, **F c **= m × v 2 /r
**Examples of Centripetal Force
- When a metal bob tied to one end of a string is whirled around a circle the tension in the string is centripetal force. If the hold at the Centre is released, the bob flies away tangentially.
- For the motion of the moon or a satellite around the earth, the gravitational force provides the centripetal force.
- We know that the electrons revolve around the nucleus in nearly circular orbits. The electrostatic force between the electrons and the nucleus provides the centripetal force.
- When a pendulum is pulled away from its equilibrium position and is pushed tangentially, it moves along a circle. The horizontal component of tension T provides the centripetal force.
- For an Earth-satellite in a circular orbit, the centri- petal force is the gravitational force exerted by the Earth on the satellite.
- In the Bohr atom, the centripetal force on an elec- tron in circular orbit around the nucleus is the attractive Coulomb force of the nucleus.
- When an object tied at the end of a string is revolved in a horizontal circle, the centripetal force is the tension in the string.
- When a car takes a turn in a circular arc on a horizontal road with constant speed, the force of static friction between the car tyres and road surface is the centripetal force.
Sample Problems on Centripetal Force
**Problem 1: A van of 1,250 Kg is travelling at 50.0 m/s and covers a curve of the radius of 200 m. calculate the centripetal force.
**Solution
Mass = 1,250 Kg
Radius = 200 m
Velocity = 50.0 m/s
We know that ,
Centripetal force (Fc)= mv2/r
= 1250 × (50)2 / 200
= 15,625 N
**Problem 2: A car of mass 1000 kg is moving in a circular path with a velocity of 1.8 km/h. If the radius of a circular path is 10 m, then what is the centripetal force acting on a car?
**Solution
Mass of a car, m = 1000 kg
Velocity of a car, v = 1.8 km/h = 0.5 m/s
Radius of a circular path, r = 10 m
Using the equation of centripetal force,
Fc = m v2 /r
Fc = [1000 × (0.5)2] /10
Fc = 250 /10
Fc = 25 N
Therefore, the centripetal force acting on a car is 25 N.
**Problem 3: One boy of mass 30 kg is enjoying a merry-go-round ride. A boy sitting on a merry-go-round rotates in a circular path of radius 6 m with a velocity of 2 m/s. Calculate the centripetal force acting on a boy.
**Solution
Mass of a boy, m = 30 kg
Radius of a circular path, r = 6 m
Velocity of a boy, v = 2 m/s
Using the equation of centripetal force,
Fc = mv2 / r
Fc = [30 × (2)2] /6
Fc = 120 /6
Fc = 20 N
Therefore, the centripetal force acting on a boy is 20 N.
**Problem 4: Calculate the centripetal force acting on a 2500 kg truck moving with a velocity of 1.2 km/h in a circular path of a radius of **15 m.
**Solution
Mass of a truck, m = 2500 kg
Velocity of a truck, v = 1.2 km/h = 0.33 m/s
Radius of a circular path, r = 15 m
Using the equation of centripetal force,
Fc = mv2/ r
Fc = [2500 × (0.33)2] /15
Fc = 272.25 /15
Fc = 18.15 N
Therefore, the centripetal force acting on a truck is 18.15 N
**Problem 5: What is the centripetal force acting on a sports bike of mass 140 kg moving in a circular path of radius 25 m with a velocity of 2.5 km/h?
**Solution
Mass of a sports bike, m = 140 kg
Radius of a circular path, r = 25 m
Velocity of a sports bike, v = 2.5 km/h = 0.69 m/s
Using the equation of centripetal force,
Fc = mv2/r
Fc = [140 × (0.69)2] /25
Fc = 66.654 /25
Fc = 2.6 N
Therefore, the centripetal force acting on a sports bike is 2.6 N.
Centripetal Force Worksheet
**Problem 1: A car is moving in a circular path with a radius of 50 meters at a constant speed of 20 m/s. Calculate the centripetal force acting on the car if its mass is 1000 kg.
**Problem 2: A stone tied to a string is being whirled in a horizontal circle with a radius of 2 meters. If the stone has a mass of 0.5 kg and is moving with a speed of 5 m/s, what is the tension in the string?
**Problem 3: A 2 kg object is moving in a circular path of radius 3 meters at a constant speed of 4 m/s. Calculate the centripetal acceleration of the object.
**Problem 4: A ball of mass 0.2 kg is moving in a circular path with a radius of 0.5 meters. If the centripetal force acting on the ball is 8 N, calculate its speed.
**Problem 5: Define centripetal force. Explain its role in circular motion.
**Problem 6: A roller coaster car is moving at a speed of 10 m/s around a vertical loop with a radius of 15 meters. Calculate the centripetal force acting on a passenger of mass 70 kg at the top of the loop.
**Problem 7: A car is navigating a curve of radius 80 meters at a speed of 25 m/s. Calculate the minimum coefficient of friction required between the tires and the road to prevent skidding.
**Problem 8: A 5 kg object is attached to a string and is being whirled in a vertical circle with a radius of 2 meters. Calculate the tension in the string at the bottom of the circle if the object is moving with a speed of 6 m/s.
**Problem 9: A car is moving around a circular track of radius 100 meters with a constant speed of 30 m/s. Calculate the centripetal acceleration and the centripetal force acting on the car if its mass is 1500 kg.
**Problem 10: A particle of mass 0.4 kg is moving in a circular path with a radius of 0.6 meters at a constant angular speed of 2 rad/s. Calculate the centripetal force acting on the particle.
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