Doc. Newton tells us in his second law that
F=ma
or force equals mass times acceleration where the mass is Kilograms, the acceleration is meters/second and force is in Newtons.
Measure the mass of the soccerball, guestimate the acceleration of the ball (change in speed divided by the elapsed time) and multiply them. Bingo, force.
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.
Absolutely. Always assume the worst.
increasing acceleration of a large mass
Well if you mean which point would require the least amount of force then it would be when the fulcrum is at the farthest possible point because the radius would be longer causing the force to be smaller for the same amount of torque.Torque = Force x RadiusSame Decrease Increase
Moving at constant velocity doesn't require any force, regardless of the object's mass or where it is.
In soccer the 3 components of fitness that each position would require are endurance speed and agility. These components will make one effective in their position of play.
Passing would require more effort than receiving.
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.
Absolutely. Always assume the worst.
increasing acceleration of a large mass
A extra pair of hands would work. The more force
Ignoring friction and air resistance, it would require a force of 30 Newtons.
More force because there is more mass:)
Most types of sports that would require a sports bra for most women include sports like gymnastics and figure skating, as well as soccer and basketball as well.
*laughing really, really hard* No. You would have to kick the ball with enough force that the friction with the air would cause enough heat to catch it on fire. Kicking a ball with this much force would probably just cause the stitches holding the ball together to disintegrate. If you put a matchbox-side on your shoe and red phosphorous (the stuff on match-heads) on the ball and then just skimmed the phosphorous-coated edge of the ball with your matchbox-side shoe, it might burn the phosphorous. However, the chance of successfully executing this are extremely low.
Well if you mean which point would require the least amount of force then it would be when the fulcrum is at the farthest possible point because the radius would be longer causing the force to be smaller for the same amount of torque.Torque = Force x RadiusSame Decrease Increase
If you have the skill, this is a great technique to score!