Wiki User
∙ 11y ago1000 N as well.
Wiki User
∙ 11y agoAccording to Newton's third law of motion, the force exerted by the ball on the bat would be equivalent to the force exerted by the bat on the ball. Therefore, if the bat hits the ball with 1000 N of force, the ball would also hit back on the bat with 1000 N of force.
When a ball hits a wall, the force of the ball hitting the wall (impact force) pushes against the wall, while the wall exerts an equal and opposite force back on the ball (reaction force).
When a ball hits a wall, it experiences a force from the wall that causes it to change direction and bounce back. This force is known as the normal force, and it is equal in magnitude and opposite in direction to the force with which the ball hit the wall. This exchange of momentum results in the ball bouncing back.
When a ball hits the ground, the surface applies an upward force on the ball due to the deformation of the ball and the surface. This force causes the ball to bounce back up. The elasticity of the ball also plays a role in how high it bounces.
When the ball hits the floor, it gets deformed, and the force of the ball compressing stores potential energy in the ball. This potential energy is released, causing the ball to bounce back up. This bounce-back force is a combination of the stored potential energy and the elasticity of the ball material.
When a ball falls and hits a surface, it compresses due to the force of impact. This compression stores energy in the ball, which is then released as the ball rebounds back off the surface. This release of stored energy propels the ball back up, causing it to bounce.
When a ball hits a wall, the force of the ball hitting the wall (impact force) pushes against the wall, while the wall exerts an equal and opposite force back on the ball (reaction force).
When a ball hits a wall, it experiences a force from the wall that causes it to change direction and bounce back. This force is known as the normal force, and it is equal in magnitude and opposite in direction to the force with which the ball hit the wall. This exchange of momentum results in the ball bouncing back.
When a ball hits the ground, the surface applies an upward force on the ball due to the deformation of the ball and the surface. This force causes the ball to bounce back up. The elasticity of the ball also plays a role in how high it bounces.
When the ball hits the floor, it gets deformed, and the force of the ball compressing stores potential energy in the ball. This potential energy is released, causing the ball to bounce back up. This bounce-back force is a combination of the stored potential energy and the elasticity of the ball material.
When a ball falls and hits a surface, it compresses due to the force of impact. This compression stores energy in the ball, which is then released as the ball rebounds back off the surface. This release of stored energy propels the ball back up, causing it to bounce.
Yes, a force is needed to make the golf ball bounce up after it hits the pavement. When the ball makes contact with the ground, the ground exerts an upward force on the ball, causing it to bounce back up. This force is known as the normal force.
The equal action and reaction forces do not cancel each other out when one person hits a ball because they act on different objects. The force exerted by the person hitting the ball causes the ball to accelerate in the direction of the force, while the reaction force from the ball pushes back on the person, causing them to feel the impact of hitting the ball.
A ball bounces back at you when it hits a surface at an angle and the energy from the impact is transferred back into the ball, propelling it in the opposite direction. The type of surface and the elasticity of the ball also play a role in how high and how quickly the ball bounces back.
Not sure how this is Pokemon related, but oh well. A ball has a certain force going in its certain direction, and when it hits your hand, your hand hits the ball with the same amount of force, but in the opposite direction. When you move your hand back, it acts like a cushion and persay "absorbs" the force of the ball. Much like if you jumped onto your bed. It would hurt if your bed was solid and didn't move at all, but because it springs in when a force lands on it, it feels nicer. Just ask your science teacher or your parents or something.
When the ball hits the wall, it exerts a force on the wall in one direction. This force is then reflected back on the ball, causing it to bounce back in the opposite direction. It follows Newton's third law of motion - for every action, there is an equal and opposite reaction.
force
When a ball falls down and hits the ground, it compresses as the kinetic energy is converted into potential energy. This potential energy is then released, causing the ball to bounce back up. The elasticity of the ball and the surface it hits determine the height of the bounce.