What is the Difference Between Centripetal and Centrifugal Acceleration?
🆚 Go to Comparative Table 🆚The main difference between centripetal and centrifugal forces lies in their directions and the frames of reference from which they are observed. Here are the key differences:
- Centripetal Force: This is the force acting on an object in curvilinear motion, directed towards the axis of rotation. It is observed from an inertial frame of reference and is responsible for keeping an object moving in a circular path. Examples of centripetal force include the force of friction between a car's tires and the road, allowing the car to turn around a curve.
- Centrifugal Force: This is a pseudo force experienced by an object in circular motion, acting along the radius and directed outwards. It is observed from a non-inertial frame of reference. Centrifugal force is experienced, for example, when riding a merry-go-round and feeling pushed away from the center.
Both centripetal and centrifugal forces are calculated using the same formula: $$F = \frac{mv^2}{r}$$, where F is the force, m is the mass of the object, v is the speed or velocity of the object, and r is the radius of the circular path. However, the centripetal force is real and points towards the center of the circle, while the centrifugal force is a fictitious (imaginary) force experienced by an object during circular motion, with a direction opposite to that of the centripetal acceleration.
Comparative Table: Centripetal vs Centrifugal Acceleration
Here is a table comparing centripetal and centrifugal acceleration:
| Centripetal Acceleration | Centrifugal Acceleration |
|---|---|
| Acts towards the center of the circular path | Acts away from the center of the circular path |
| Observed from an inertial frame of reference | Observed from a non-inertial frame of reference |
| Real force | Pseudo-force |
| Directed perpendicular to the object's displacement | Directed in the same direction as the object's velocity |
| Examples:frictional force between tyres and road, normal force in a roller coaster loop, gravitational force for planets orbiting the Sun | Examples:mud flying off a tire, children feeling a force pushing them away from the center of a merry-go-round |
Centripetal acceleration is the real force acting on an object in curvilinear motion, directed towards the axis of the circular path. In contrast, centrifugal acceleration is a pseudo-force observed from a non-inertial frame of reference, acting away from the center of the circular path. Both forces can be calculated using the same formula: $$ac = \frac{v^2}{r}$$, where $$ac$$ is the centripetal/centrifugal acceleration, $$m$$ is the mass of the object, and $$v$$ is the tangential velocity.
- Angular Acceleration vs Centripetal Acceleration
- Tangential Acceleration vs Centripetal Acceleration
- Centripetal vs Centrifugal Force
- Gravitational Force vs Centripetal Force
- Acceleration vs Deceleration
- Pseudo Force vs Centrifugal Force
- Speed vs Acceleration
- Acceleration vs Momentum
- Acceleration vs Velocity
- Acceleration vs Gravitational Field
- Acceleration vs Average Acceleration
- Circular Motion vs Spinning Motion
- Acceleration vs Retardation
- Accelerometer vs Gyroscope
- Circular Motion vs Rotational Motion
- Angular Velocity vs Tangential Velocity
- Centrifugation vs Ultracentrifugation
- Centrifugal vs Reciprocating Pump
- Momentum vs Velocity