# Readers ask: What Force Provides The Centripetal Acceleration For A Car Going Around A Flat Circular Road?

## What force provides the car’s centripetal acceleration?

As a car makes a turn, the force of friction acting upon the turned wheels of the car provides centripetal force required for circular motion. As a bucket of water is tied to a string and spun in a circle, the tension force acting upon the bucket provides the centripetal force required for circular motion.

## What provides the centripetal force for a car going around a roundabout?

For example, a car travelling on a roundabout will move at a constant speed, but with a changing velocity, as its direction is constantly changing. The centripetal force that acts inwards is due to the friction between the car’s tyres and the road. This force keeps the car moving in a circular path.

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## What provides centripetal force on a flat curve?

On a flat, level curve, the friction between the tires and the road supplies the centripetal force. If the tires are worn smooth or the road is icy or oily, this friction force will not be available. The car will not be able to move in a circle, it will keep going in a straight line and therefore go off the road.

## When a car rounds a curve on a flat road what supplies the centripetal force that keeps the car moving in a circular path establish the formula for the maximum safe speed of the car?

Since the radial friction with the tires supplies the centripetal force, and friction is nearly 0 when the car encounters the ice, the car will obey Newton’s first law and go off the road in a straight line path, tangent to the curve.

## Is centripetal force equal to normal force?

Only the normal force has a horizontal component, and so this must equal the centripetal force—that is, Nsinθ=mv2r ⁡ θ = m v 2 r.

## What is the centripetal force of acceleration?

Centripetal acceleration, the acceleration of a body traversing a circular path. Centripetal acceleration has units of metre per second squared. The force causing this acceleration is directed also toward the centre of the circle and is named centripetal force.

## How does centripetal force cause circular motion?

An object is in circular motion. It would move in a line tangent to the circular path. A centripetal force causes circular motion because it accelerates an object. toward the center of a circle, which changes the direction of motion but not the speed.

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## What causes the pail to move in circular motion?

As a bucket of water is tied to a string and spun in a circle, the tension force acting upon the bucket provides the centripetal force required for circular motion. As the moon orbits the Earth, the force of gravity acting upon the moon provides the centripetal force required for circular motion.

## Why does mass not affect centripetal acceleration?

We can see that mass does not play a role in the centripetal acceleration of an object, so no matter what happens to the mass, the centripetal acceleration remains the same.

## What is tangential acceleration formula?

The tangential acceleration = radius of the rotation * its angular acceleration. It is always measured in radian per second square. Its dimensional formula is [T2]. When an object makes a circular motion, it experiences both tangential and centripetal acceleration.

## What is centripetal force example?

Centripetal force is the force that acts on an object in order to direct it towards a center of curvature. Imagine swinging a yo-yo around in a circle. The force generated by your arm puts the yo-yo itself in motion, and the tension on the string keeps it moving in a circular path as you twirl it.

## Is centripetal force real?

With this definition, centripetal force would be real and centrifugal not real. Centripetal force is the force needed to make something move in a circle. A constant magnitude centripetal force that is always perpendicular to the direction of motion will make the object move in a circle.

## Which force is responsible for holding a car in an unbanked curve?

When a car moves at a steady speed around an unbanked curve, the centripetal force keeping it on the curve comes from the static friction between its tires and the road.

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## Is it possible for a vehicle to travel around a curve without accelerating?

Explanation: An acceleration is necessary for an object to change direction. The car experiences a centripetal force as it turns the corner as a result of friction. The magnitude of the velocity does not change, but the direction does.

## Is tension a centripetal force?

A centripetal force is a net force that acts on an object to keep it moving along a circular path. The tension force in the string of a swinging tethered ball and the gravitational force keeping a satellite in orbit are both examples of centripetal forces.