-- When you catch a ball, you have to change its speed from something to nothing.
-- That requires acceleration, and acceleration requires force.
-- The force that changes the speed of the ball from something to nothing
comes from the muscles in your catching arm.
The net force on the ball is not zero. The ball exerts a force on the wall (the action), and the wall exerts an equal and opposite reaction force on the ball. These two forces do not sum to zero as they are acting on different objects; the action of the ball acts on the wall and the reaction of the wall acts on the ball.
the ball exerts a force on the bat creating action and in turn you apply a force that is greater than the action force. this is called the reaction force.
Friction of the ground against the player's shoes.
Newton's third law of motion explains action and reaction forces. The third law states that for every action force, there is an equal and opposite reaction force. Imagine hitting a baseball. The bat exerts a force on the ball.
I suppose this in a way depends on perspective at hand.A reaction force is directly opposite of action force.If a ball hit another ball, they actually hit each other at the same time with the same force if they are of the same size and mass.If a ball hit a football player, then the football player equally hit the ball but in proportion to mass. This happen at the same time.Now for the tricky part.The action force could be considered to trigger a reaction force different to what it would normally be because it is observed. Would this not make reaction force before action force?Still probably not valid.As a reaction force is directly opposite of action force, it would not matter if the football player hits the ball hard or not so hard as a result of what he sees. Energy exchanged will be different, but always in proportion to mass.The football player would only be exchanging action and reaction force with other objects/players before hitting the football, making another exchange of energy.Claim:All exchange of energy happens at the same time for both objects in proportion to their mass no matter the circumstances.Newtons third law.
The action is throwing the ball up in the air and the reaction is catching it in your hands. Further, the action caused the reaction to occur; forces acted in pairs.
Yes, provided that we bounce the tennis ball with enough force. Newton's laws of motions comes into play, stating that each force creates an equal and opposite reaction.
Answer this question… If the action force is a player kicking a Soccer ball then what is the reaction force?
the action force is your foot when u strike the ball the reaction force is the ball being kicked
the action force is your foot when u strike the ball the reaction force is the ball being kicked
The action force is your hand moving back. The reaction force is the ball moving the other way.
When a ball is being struck by a bat it certainly exerts a reaction force on the bat. But the bat does not move backward because the reaction is not enough to move the bat as it is much heavier than the ball. The reaction force is felt by the person who strikes the ball with the bat through his arm. If the ball is heavier than the ball the bat will surely get the reaction force and move back.
The net force on the ball is not zero. The ball exerts a force on the wall (the action), and the wall exerts an equal and opposite reaction force on the ball. These two forces do not sum to zero as they are acting on different objects; the action of the ball acts on the wall and the reaction of the wall acts on the ball.
As per Isaac Newton, for every action there is an equal and opposite reaction. Hence, the force that the bat exerts on the ball is the same as the force that the ball exerts on the bat; in this case, 1500 Newtons.
action and reaction force
the ball exerts a force on the bat creating action and in turn you apply a force that is greater than the action force. this is called the reaction force.
Can you identify action-reaction pairs? Let's see... A soccer player kicks a ball. The action reaction pair for the kick is: