Table of Contents
- 1 Why does a ball thrown upward in a train moving with uniform velocity return to the thrower?
- 2 Is thrown vertically upward in a train moving with uniform velocity the ball will?
- 3 Why does the ball move forward when the train moves forward?
- 4 Why does the ball fall exactly in the hands of the person?
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.
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.
How is the ball thrown in the compartment of the train?
A ball is thrown vertically upwards (relative to the train) in a compartment of a moving train. The face of the person sitting inside the compartment is towards engine of the train. The Fish Tale Across the Wall Tenths and HundredthsParts and Whole Can you see the Pattern?
What happens when the boy throws the ball up into the air?
When the boy throws the ball up into the air, it had the same horizontal velocity as the train (and by extension the boy) at the moment that it was thrown. Now, as the ball travels through the air, assuming the friction with the air is minimal, t So, there are three different outcomes of this situation depending on what the train’s acceleration is.
Why does the ball move forward when the train moves forward?
As the train move forward, the ball is also moving up and forward because the horizontal velocity before being thrown up is the same while going up and down. The inertia of the ball will keep it to move forward while going upward and downward. This is just similar to a bomber plane dropping a bomb.
Why does the ball fall exactly in the hands of the person?
Exactly in the hands of the person Since the car is moving with a constant velocity, so no pseudo force acts on the ball while it is in air. Thus the ball goes vertically upwards and the falls downwards (w.r.t. car frame) and falls exactly in the hands of the person. Answer verified by Toppr