Q&A

What happens if you throw a ball on a moving train?

What happens if you throw a ball on a moving train?

When a person throws a ball up in a moving vehicle, say, a train, the ball does come straight back to thrower as though the train were at rest. So if the train moves with a constant velocity, the ball will exactly return to the thrower.

Which will happen if a ball is thrown upward?

When you throw an object upwards, it will eventually fall back to the ground under the earth’s gravity. An object that is thrown vertically upwards decelerates under the earth’s gravity. Its speed decreases until it attains a maximum height, where the velocity is zero.

When a ball is thrown upward what happens to its velocity?

For example, when a ball is thrown up in the air, the ball’s velocity is initially upward. Since gravity pulls the object toward the earth with a constant acceleration g, the magnitude of velocity decreases as the ball approaches maximum height.

Why does a ball thrown upward in a train moving with uniform velocity return to the thrower?

A ball thrown upward in a train moving with uniform velocity returns to the thrower because during the upward and downward motion the ball also moves along horizontal with the train due to inertia of motion. Hence it covers the same horizontal distance as the train does and the ball returns to the thrower.

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What happens if you throw a ball out of a moving car?

A: It’s simply a matter of air resistance. Initially when you throw something out of the car it is traveling at the same speed as the car. Since there is an air resistance force the object will tend to move backward with respect to the car.

What happens if you throw a ball in a car?

this is all related to relative motion. when you are moving forward and threw it with 80mph , both get added , that is 80mph of your car + 80 mph of your ball. and so , you are gonna lose a ball. if you just toss it up, the speed of ball will be 0 + 80(of your car).

When a ball is thrown vertically upwards its energy?

When a ball is thrown vertically upwards, its velocity goes on decreasing. As the velocity of the ball goes decreasing, its kinetic energy also goes decreasing and its potential energy starts increasing. And when the velocity becomes zero, its kinetic energy is zero and converted into its potential energy.

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Why does a ball thrown vertically upwards?

Due to the inertia of motion, during the time the ball remains in air, the person and ball move ahead by the same distance. This makes the ball fall back into the thrower’s hand.

Is thrown vertically upward in a train moving with uniform velocity the ball will?

When the ball is thrown upwards, there is no horizontal force. Therefore, the ball has the same horizontal velocity as that of the train due to inertia of motion. So, both the ball and hand travel the same distance in both horizontal direction and hence, ball will fall back into hands.

Does a ball dropped out of the window of a moving car?

Does a ball dropped out of the window of a moving car take longer to reach the ground than one dropped at the same height in a car at rest? No, neglecting air resistance.

What happens when a ball is thrown up in a train?

The ball thrown upwards possesses the inertia of motion of the train. Hence at that moment when the train changes its velocity the ball continues to travel with the previous velocity of the train which is definitely less than the new velocity (because it is given that the train accelerates).

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What happens when you throw a ball vertically upward?

Motion of a ball thrown vertically upwards. You must have seen someone throwing a ball vertically upwards or probably you have thrown it yourself. Yes, the ball thrown vertically upwards goes up for a while and then stops and starts to come down and touches the ground with a bang if you can’t catch it.

Can the ball reach your hands in a moving train?

Thus , if the train is moving with uniform velocity and no wind in the opposite direction, definitely, it will reach your hands. If the train was accelerating, the ball will fall behind you, as you go first and the force acting on you through the carriage will not act on the ball, since the ball is in the air.

Will a ball land in a train car moving with constant velocity?

If I throw a ball straight up in an enclosed train car moving with constant velocity, I believe the basic physics books say it will land in the same spot. But will it really? I think I can say that the answer is “not in the real world”. Trivially, a train car is never enclosed.