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When you kick a football what action and reaction forces are involved Which force if any is greater?
Wiki User
∙ 10y ago
The action (foot to ball) and reaction (ball to foot) forces are equal and opposite. The ball gains momentum and the foot loses momentum. The collision is elastic and the foot has more mass than the football, so the football departs with a velocity greater than the initial velocity of the foot.
Wiki User
∙ 10y ago
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What forces are involved in a bouncing ball?
action and reaction force
What action-reaction forces are involved when a rocket engine fires?
not sure
What action reaction forces are involved when catching a ball?
The action force is your hand moving back. The reaction force is the ball moving the other way.
When do action and reaction forces cancel out each other?
Well in a single action-reaction pair, they cannot cancel out! The action and reaction forces act on different bodies. Lets say that we have a football. I kick it with 200 N of force. That is the action force, so the reaction force must be 200N(in the opposite direction) as well. The key here is that the reaction force did not act on the football, but on your foot! So the net force of the football is still 200 N in the direction I kicked it!Hope this helps some,-Sk Inventor
How do you describe the action-reaction forces of kicking a soccer ball?
Can you identify action-reaction pairs? Let's see... A soccer player kicks a ball. The action reaction pair for the kick is:
How are football and Newton's third law related?
if we kick football it is an action the opposite reaction is the opponent of the team's action
What forces are involved in a bouncing ball?
action and reaction force
What action-reaction forces are involved when a rocket engine fires?
not sure
What action reaction forces are involved when catching a ball?
The action force is your hand moving back. The reaction force is the ball moving the other way.
What are action and reaction according to newtons 3rd law when you hit a football?
When you hit a football, the ball moving forward is the action ( visible to naked eye ). However what is not visible to naked eye is the reaction which occurs on the person kicking the football. He too is pushed backwards. But as the mass of the footballer is m=way more than that of football, no visible reaction is seen. Concept used : conservation of momentum, newtons third law of motion
When do action and reaction forces cancel out each other?
Well in a single action-reaction pair, they cannot cancel out! The action and reaction forces act on different bodies. Lets say that we have a football. I kick it with 200 N of force. That is the action force, so the reaction force must be 200N(in the opposite direction) as well. The key here is that the reaction force did not act on the football, but on your foot! So the net force of the football is still 200 N in the direction I kicked it!Hope this helps some,-Sk Inventor
How do you describe the action-reaction forces of kicking a soccer ball?
Can you identify action-reaction pairs? Let's see... A soccer player kicks a ball. The action reaction pair for the kick is:
Identify the action reaction force pair involved when you catch a ball?
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.
How does action reaction forces apply to softball?
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.
Is the action force always greater than the reaction force?
No, they are always the same. That is what Newton's third law states.
What is the nickname of Newton's third law?
"Action and reaction", or "For every action there is a reaction"."Action and reaction", or "For every action there is a reaction"."Action and reaction", or "For every action there is a reaction"."Action and reaction", or "For every action there is a reaction".
Is there a action for every reaction?
Yes. Action and Re-action are relative, to how the problem is described. You can start with the reaction and find the action or start with the action and find the reaction.
