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how much force is required to stop a 100 mi/hr fastball? Assume the catcher's mitt stops the ball in 1 millisecond and the mass of a baseball is 145 g.

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how much force is required to stop a 100 mi/hr fastball? assume the catcher's mitt stops the ball in 1 millisecond and the mass

Top answer: V=100mi/h * 1600m/mi * 1h/3600s = 44.44m/s V = Vo + a*t = 0 a = -Vo/t = -44.444/10^-3=-44,444 m/s^2 Read more.
a baseball catcher is catching a fastball that is thrown at 43 m/s by the pitcher. if the mass of the ball is .15 kg and if the

Top answer: To calculate the force on the mitt, you can use Newton's second law of motion, which states that the Read more.
A catcher's mitt recoils a distance of 0.177 m in bringing a 0.176 kg baseball to a stop. If the applied force is 504 N, then

Top answer: Work = F*d = 504 * 0.177 = 89.2 J. Work = Change in kinetic energy: Work = 0.5M*V^2 = 89.2, Read more.
A ball has a mass of 150 grams and is throw at 105 mph. The ball stops in a catcher mitt in 0.2 seconds. what force is applied

Top answer: To find the force applied to stop the ball, we can use Newton's second law of motion, which states Read more.
A 0.2-kilogram softball is thrown toward a catcher’s mitt. The ball is accelerating at a rate of 8 meters per second squared.

Top answer: The force with which the ball hits the catcher's mitt can be found using the formula F = ma, where F Read more.
A 0.02-kilogram softball is thrown a catcher's mitt. The ball is accelerating at a rate of 8 meters per second squared. With

Top answer: To find the force with which the ball hits the catcher's mitt, we can use Newton's second law of Read more.
A 0.2-kilogram softball is thrown toward a catcher's mitt. The ball is accelerating at a rate of 8 meters per second squared.

Top answer: The force with which the ball will hit the catcher's mitt can be calculated using Newton's second Read more.
A 0.2-kilogram softball is thrown toward a catcher’s mitt. The ball is accelerating at a rate of 8 meters per second squared.

Top answer: The correct answer is D. 7.8N. We can use the formula F = m*a, where F is the force, m is the mass, Read more.
A 0.2-kilogram softball is thrown toward a catcher’s mitt. The ball is accelerating at a rate of 8 meters per second squared.

Top answer: To calculate the force with which the ball will hit the catcher's mitt, we can use the formula: Read more.
A 0.2-kilogram softball is thrown toward a catcher’s mitt. The ball is accelerating at a rate of 8 meters per second squared.

Top answer: The force with which the ball will hit the catcher's mitt can be calculated using Newton's second Read more.