As you throw a heavy ball upward, is there any change in the normal force on your feet?
Answers
Answer:
The normal force acting on the person when the ball is thrown up is R=F−W, and the normal force on the person when the man catches the ball is R=F+W. By comparing the above normal forces, there must be a change in the normal force acting on the feet if the ball is tossed upward or when one catches a ball
Explanation:
The normal force acting on the person when the ball is thrown up is R=F−W, and the normal force on the person when the man catches the ball is R=F+W. By comparing the above normal forces, there must be a change in the normal force acting on the feet if the ball is tossed upward or when one catches a ball
Explanation:
The acceleration due to gravity or the gravitational pull varies with altitude. This is significant in re-entry capsules and objects moving at very high altitudes. But, for just a ball thrown upwards the gravitational acceleration will be pretty much the same and the changes are negligible.