Forces involved in bowling
Bowling involves throwing a ball towards a person or a wooden object, and this is a recreational activity and a target sport. This activity is associate with many forces that enable the balls to go through the wooden object. Some of these forces involved in bowling include the force of gravity that pulls the pins towards the focus point. During bowling, the gravity swing that one makes only relies on gravity force to be able to swing heavyweight of the bowling ball. The gravity force has a significant impact on the bowling activity because it makes it possible. The force of friction is also involved in the activity and is very fundamental because it ensure that the pins do not slide off the lanes. When the bowling ball is thrown through the lane there is friction between it and the boards that tend to slow the bowling ball down. When there is less friction involved the ball moves faster while more friction is involved the bowling ball moves slow. Another force is the muscular one as it is also involved in the activity, different primary muscles are engaged during the activity. Some of these muscles include the hamstrings, lower back, rotator cuff complex, gluteus and quadriceps.
Inertia- this concept applies to bowling because it enables the ball to keep rolling in the lane until it hits the pins that act upon it with a greater force.
Impulse- when the bowling ball is thrown and it hits the pins impulse helps in changing the momentum of the bowling ball.
Work-this is involved because the act of throwing the bowling ball involves some physical efforts from the person throwing the ball aiming to reach the pins.
Kinetic energy- this is the energy used in this activity, when the bowling ball is thrown it gains kinetic energy which facilitates the motion.