Physics Of Wrestling Essay
Man has grappled with his ideas, thoughts, ideologies, and even God since the beginning of time. One such example is seen in Jacob wrestling with God from night till daybreak in Genesis 32:22-32. At the basic levels of wrestling, one must learn how to perform a takedown. The takedown requires the application of physics’ principles such as momentum, friction, gravity, and even momentum. Momentum is a vector quantity, meaning that it needs a magnitude and direction, and this expression is mathematically defined as p=mv. The momentum is equal to the mass times velocity. In wrestling, two colliding wrestlers are subject to a change in momentum. For instance, a wrestler will attempt to apply an impulsive force north for as long as possible and as
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This concept applies several physics’ principles, such as energy and work. Every wrestler in their wrestling stance has energy (the ability to do work). Furthermore, once they apply a takedown they are applying a force to an object which has mass (their opponent) to cause displacement. This feeds into the concept of work, or the product of the displacement of an object and the component of the applied force that is parallel to the displacement. Since the wrestler applied a force to move his opponent, he did work. If the wrestler only pushed on his opponent yet the opponent had no displacement, then he has done no work. The mathematical equation of work is W=F_II*∆x, where F represents the magnitude of the force vector that is parallel to the displacement vector, being delta x. Once the wrestler changes his stance, his potential energy is converted into kinetic energy and after this, he is experiencing energy in motion or kinetic energy while his is driving his opponent to the mat. The displacement that this causes results in work being done in Joules. Furthermore, the wrestler also experiences mechanical energy because he is in motion. By definition, mechanical energy is the associated with the movement of objects. This is displayed in wrestling because, as stated before, the wrestler is constantly moving because he is always searching for opportunities to take his opponent to the
This concept applies several physics’ principles, such as energy and work. Every wrestler in their wrestling stance has energy (the ability to do work). Furthermore, once they apply a takedown they are applying a force to an object which has mass (their opponent) to cause displacement. This feeds into the concept of work, or the product of the displacement of an object and the component of the applied force that is parallel to the displacement. Since the wrestler applied a force to move his opponent, he did work. If the wrestler only pushed on his opponent yet the opponent had no displacement, then he has done no work. The mathematical equation of work is W=F_II*∆x, where F represents the magnitude of the force vector that is parallel to the displacement vector, being delta x. Once the wrestler changes his stance, his potential energy is converted into kinetic energy and after this, he is experiencing energy in motion or kinetic energy while his is driving his opponent to the mat. The displacement that this causes results in work being done in Joules. Furthermore, the wrestler also experiences mechanical energy because he is in motion. By definition, mechanical energy is the associated with the movement of objects. This is displayed in wrestling because, as stated before, the wrestler is constantly moving because he is always searching for opportunities to take his opponent to the