# When a ball is moving on a frictionless horizontal surface with no force applied on it?

## When a ball is moving on a frictionless horizontal surface with no force applied on it?

Expert-Verified Answer Answer:Since there is no external forces are acting on a ball . The ball will move with constant speed. Explanation:According to the Newton First law of motion the body will remain in its state of motion unless any unbalanced external forces are acting on the body.

## What happens if a ball is rolled on a frictionless horizontal surface?

If any of the force is not acting on the ball which was rolled then it’s velocity will remain unchanged……… According to Newton’s first law…..a body in motion continues to be in motion and a body at rest continues to be in rest until and unless an external force is applies on the body.

## When a body is moving on a frictionless horizontal surface?

The work done against the gravity when a body is move horizontally along a frictionless surface is zero as the force of gravity acts perpendicular to the direction of motion.

## Should an object moving on a frictionless horizontal surface move with constant velocity?

Newtons law of motion states that a body moving with constant velocity will continue moving with same velocity if any external force is absent. In the given case above case surface is frictionless and any other external force is absemt so body will move with same constant velocity.

## When an object is moving on a frictionless surface?

Once the force is removed, since there is no friction, what remains in motion stays in motion at constant velocity. If object is moving in a friction less surface with a constant velocity, Acceleration is the change of velocity per unit time, so if there is no force, all we know is that the acceleration is zero.

## What is the force acting on a frictionless surface?

A block lying on a frictionless surface has a net force of zero. If an additional force acts on it, it will produce motion, irrespective of the magnitude of force.

## When a ball is rolled along a horizontal surface?

When a ball is rolled along the surface, the frictional force acts on the body opposite to the direction of motion of the ball. Thus frictional force is responsible for bringing the ball to rest.

## What happens on a frictionless surface?

When an object moves over a rough surface and it offers frictional force in the opposite direction of motion. Due to this opposition object stop after covering a certain distance. Thus when an object moves along a frictionless surface there is no opposition and no unbalanced force acts on it, so it will move uniformly.

## What would happen on a frictionless surface?

If the surface is friction-less then no matter how much, any force will move it (provided that there is no opposing force from that direction).

## Can a person move on a frictionless surface?

The only walk that you can perform without friction is a space-walk while every other action that involves contact of two surfaces and motion involves friction. Therefore one can not walk without friction because there will be no contact force to make the person give motion.

## When you are on a frictionless horizontal plane?

As we are given on a frictionless surface. Then the person won’t be able to stand or walk and thus jumping is impossible.

## What is frictionless movement?

Meaning of frictionless in English without any friction (= the force that makes it difficult for an object to slide across or move through something): Cartilage covers the ends of the bones in our joints and permits nearly frictionless movement.

## When there are no forces in the horizontal direction what does that mean?

The force of gravity does not affect the horizontal component of motion; a projectile maintains a constant horizontal velocity since there are no horizontal forces acting upon it.

## When you are on a frictionless horizontal plane then how can you get off if no horizontal force is exerted by pushing against the surface?

By spitting or sneezing, we could start moving using the third law of motion or momentum conservation, and since the surface is frictionless even a small force would be sufficient to get off from the surface.