The forces pushing the ball uphill are the external force or the force applied to the ball, which imparts energy to move it up, and the force of friction acting against the ball's motion. The forces pulling the ball downhill include gravity, which pulls the ball downwards, and potentially air resistance if applicable.
When a ball bounces, there are primarily two forces at play: gravity, which pulls the ball downwards, and the normal force exerted by the surface the ball bounces off of, which pushes the ball back up. These forces determine the height of the bounce and the time it takes for the ball to return to the surface. Frictional forces may also play a role in influencing the bounce of the ball.
The speed of a ball thrown up decreases because of gravity acting against the initial velocity. As the ball goes up, gravity pulls it back down, causing its speed to decrease until it reaches its peak height and momentarily stops before falling back down.
Yes, at the top of its path, the ball experiences a momentary change in direction and velocity, which means that there are forces acting on it. The two forces at play are the gravitational force pulling the ball down and the normal force exerted by the surface on the ball.
When a ball is at rest, the forces acting on it are balanced. This means that the force of gravity pulling the ball down is exactly counteracted by the normal force pushing up on the ball from the surface it rests on. As a result, the net force on the ball is zero, and it remains at rest.
Look up newtons 3 laws.
Nothing happens to the forces. The forces are what makes the thing speed up or slow down.
The forces pushing the ball uphill are the external force or the force applied to the ball, which imparts energy to move it up, and the force of friction acting against the ball's motion. The forces pulling the ball downhill include gravity, which pulls the ball downwards, and potentially air resistance if applicable.
no
When a ball bounces, there are primarily two forces at play: gravity, which pulls the ball downwards, and the normal force exerted by the surface the ball bounces off of, which pushes the ball back up. These forces determine the height of the bounce and the time it takes for the ball to return to the surface. Frictional forces may also play a role in influencing the bounce of the ball.
as you run while dribbling with the ball, you lift up your foot to kick the ball and drive it into the goal...the power/momentum comes from the ground-hips-back down to your foot and transfers energy to the ball.
Acceleration
The speed of a ball thrown up decreases because of gravity acting against the initial velocity. As the ball goes up, gravity pulls it back down, causing its speed to decrease until it reaches its peak height and momentarily stops before falling back down.
Yes, at the top of its path, the ball experiences a momentary change in direction and velocity, which means that there are forces acting on it. The two forces at play are the gravitational force pulling the ball down and the normal force exerted by the surface on the ball.
Fast ball, curve ball, drop ball, screw ball, rise ball, change up, curve drop, off speed curve.
When a ball is at rest, the forces acting on it are balanced. This means that the force of gravity pulling the ball down is exactly counteracted by the normal force pushing up on the ball from the surface it rests on. As a result, the net force on the ball is zero, and it remains at rest.
standardization