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Net force is the addition of all forces applied. An example would be a still ball (a ball not in motion). The ball would be in "equilibrium" meaning that the ball is at rest, therefore, the net force of this ball would be 0.
Since you need to exert force on the ball to push it away from you, the ball will obviously push back (with a force that has the same magnitude, but is in the opposite direction). This is an example of Newton's Third Law.
An outside force causes an object to have more momentum. For example, if you push a ball, the ball would have more momentum and would therefore move. You pushing the ball would be the outside force.
an example can be anything that's not moving like a skateboard, a bike a soccer ball, and a lot more. hope this helps
put your hand there to stop it.
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Net force is the addition of all forces applied. An example would be a still ball (a ball not in motion). The ball would be in "equilibrium" meaning that the ball is at rest, therefore, the net force of this ball would be 0.
Since you need to exert force on the ball to push it away from you, the ball will obviously push back (with a force that has the same magnitude, but is in the opposite direction). This is an example of Newton's Third Law.
In simple terms Force is a push or pull.. A force will tend to move a body at rest, stop a body in motion. Your weight in the downward direction is an example of Force. If you push or pull something, that particular body experiences force. When a ball hits you, the ball applies force on your body. In the same way, you also apply force on the ball- according to Newton's Third Law. (For each and every reaction there is a equal and opposite reaction.) It is due to force applied by you on the ball, the ball rebounds. Similarly is the case when you hit the ball on the floor and the ball rebounds... These were some basic example of forces...
newton's 1st law
An outside force causes an object to have more momentum. For example, if you push a ball, the ball would have more momentum and would therefore move. You pushing the ball would be the outside force.
by applying force to the ball the ball will apply an equal and opposite force on the foot. when you kick the ball, the ball will move forward and your foot will move backward. this force is unnoticeable to the common person simply because we are not looking for it
an example can be anything that's not moving like a skateboard, a bike a soccer ball, and a lot more. hope this helps
1) While the ball is kicked, the main force is the force of the foot against the ball.2) While the ball is in the air, the main force acting on the ball - again, an unbalanced force - is gravity.
if you increase the force , the mass remaining constant, a new rate of acceleration applies in the order a = f/m from that point (second law)
No. The force keeping a ball on a string moving in a circle is centripetal force, i.e. force pulling the ball to the center of the circle.