# Essay on The Physics of Bowling

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The Physics of Bowling The definition of physics by some may be the science that deals with matter, energy, motion, and force. Therefore everything in the world uses physics in some way or another. One of the numerous things that deal with physics is bowling. Some of the major parts of physics bowling has is the motions, the ways that Newton’s laws apply, the different momentums, and the energy. Other physics topics include torque, pendulum theory and collisions. In the motion of bowling many things are going on that apply to bowling. There is displacement, velocity, gravity, and acceleration. There is also an opposition to motion, which is friction. The displacement would be the bowling ball going from the position of leaving…show more content…
Since the direction of the rotation is to the left, the ball will begin turning in that direction. Friction also causes the ball to slow down if thrown straight down the middle. The bowling players also use friction to stop themselves before the penalty line. If there were no friction present the player would slide at a speed until something stops him or her. In inertia there are many variables on the bowling lanes. This Internet source talks about them. ““Friction is assumed to be zero, which is practical since most alleys are lubricated to reduce friction. Inertia will differ for all depending on the mass of the ball, the velocity at which it is thrown, and the height from which the ball is released.1”” The inertia of the pins is smaller because of the smaller mass with no velocity and the center of mass. So once the ball hits the pins will move more than the bowling ball because they have less inertia than the ball does. Just like motions of bowling Newton’s three laws also apply to bowling. In the physics book, A World View, it explains his three laws. ““Newton’s first law of motion, an object at rest remains at rest and an object in motion remains in motion with a constant velocity unless acted on by a net outside force.” “Newton’s second law of motion. The net force on an object is equal to its mass times its acceleration.” “Newton’s third law of motion. If an object exerts a force on a second object, the second