the mass of the ball and club and the velocity of the club
all of these
The force exerted on the table by a ball IS the weight of the ball.
the force exerted by a 3 kg ball on earth is weight force, whose direction is downward, and magnitude is 29.4 newton.
That depends on the elasticity of the material used to make the rugby ball, the pressure to which it is inflated, and the force exerted on the ball to make it bounce.
There are a multitude of variable that need to be taken insto consideration. For each, How much force is being put into the swing or throw?? For The batted ball, it depends of the angle of which it strikes the bat. For the thrown, If there is the same force exerted on the ball as the batted ball, it will have half of the velocity. But, all variables considered, a typical batted ball travels with more force and velocity (Speed) than one thrown.
No they do balance each other its the newtons law that every action have reaction.If we throw a ball towards a wall the force which we exerted on the ball is equal to the force which wall exerted on the ball.
When there are already 2 strikes on the batter.
yes becuase impulse is calculated by force times difference in time if you exerted a force on the ball at any point (you need to to throw it) then you exerted impulse on it
to reduce the impact, and make it hurt less.It has to do with the retarding force that would be exerted by the ball on the hand if the hand were to just stop it - the force would be high since the ball's motion is stopped immediately. But by moving the hand in the direction of the motion of the ball, it allows the velocity of the ball to decrease in a longer interval of time (and so, causes the retarding force to decrease). This means that the force exerted by ball on the hand is much lower, and the fielder does not get hurt.
Most commonly, the force of drag created by friction with the pitch or other surface will stop the soccer ball. A vector force exerted by a player may also stop the ball.
Gravitational force pulling the ball towards the center of the Earth, the normal force between your hands and the ball, and the force exerted on the ball to raise it against gravity; this is called gravitational potential force, which can be calculated to be the mass of the ball multiplied 9.8m/s2 and the height it is raised from it's initial place.
The forces acting on a flying ball are:1. The frictional force exerted by air on the motion of the ball.2. The gravitational force of the earth, of course.
Gravitational force pulling the ball towards the center of the Earth, the normal force between your hands and the ball, and the force exerted on the ball to raise it against gravity; this is called gravitational potential force, which can be calculated to be the mass of the ball multiplied 9.8m/s2 and the height it is raised from it's initial place.