Soccer has become an important part of the culture in America. Recently, the Women’s National Soccer team even won one of the biggest honors possible, the World Cup. People play and watch soccer games all of the time and yet few people actually realize the physics that are involved in almost everything that they see or do. While there are multiple ways that physics is used in a soccer game, this paper explores three parts and the physics that are involved in each one. The three parts that are going to be discussed are passing a soccer ball, heading a soccer ball, and throwing the soccer ball back into play. These three movements can explain how physics can work from a soccer ball coming or going in each and every direction. Also, every part …show more content…
Soccer players pass more than they do anything else in a soccer game. Passing is the most accurate way to get the soccer ball to any teammate running with you on the soccer field. Yet there is a lot more to passing a soccer ball than most people, or soccer players, even realize. The physics behind passing a soccer ball is interesting because there is more than one thing going on at the same time. To start off, there is Newton’s Second Law. When a ball is passed from one player to the player receiving the ball, it needs an accurate pass. The ball needs to be passed with some pace behind it for the receiver to actually get the ball and control of it quickly. Newton’s Second Law is used to describe the motion of the pass of the soccer ball which is F=ma or Force= mass multiplied by acceleration. The force is applied to the soccer ball and it then accelerates. Let’s not forget about the mass of the soccer ball. The ball has a relatively small mass and therefore will have a greater acceleration. For example, the soccer ball would move faster than if you were to try it with a bowling ball. When the ball is accelerating and in motion it is going over grass. This causes some friction to occur. Friction happens when “a force created by two surfaces or fluids coming in contact with each other” (Weyers, n.d.). The equation for friction is F = µN or Force of Friction = coefficient of friction multiplied by …show more content…
What force or forces are acting on the ball to make the ball curve and come down? This force would be called gravity. The force is applied to the soccer ball as it comes from behind the players head and released. When the soccer ball is released, gravity acts on the ball and it returns to the ground (Ball, 2006). If gravity was absent then the ball would continue to go up and fly off into the atmosphere.
Physics helps people with things every day and also in sports. Soccer players use physics in almost everything that they do on the field during training and while playing in the game. This can be observed with the players’ passing the soccer ball, heading the soccer ball, and throwing the ball back into play. There are many times that there are more than one force that is acting on the ball or even the player. Soccer is a fast pace and crazy sport in which people would not be able to play and enjoy without the help of
Lacrosse is defined as a ball game invented by American Indians, now played by two teams who try to propel a ball into each other's goal by means of long-handled hooked sticks that are loosely strung with a kind of netted pouch (Farlex, Inc.). Behind every shot taken in a lacrosse game, elements of biomechanics are implemented. Biomechanics is the “sport science” field that applies the laws of mechanics (movements, body angles, joint positions, etc.), biomedical engineering, and physics (gravity, forces, velocities, etc.) to athletic performance (What is 3D Biomechanics).
Khan Academy explains, “The second law of motion states that force on an object is equal to the mass of the object multiplied by its acceleration. If we apply this law to a football, it tells us that the amount that the ball accelerates depends on the force applied by the quarterback and the mass of the ball.” (“Football Physics”). The less mass a ball has the further it’s potential to travel is. The lighter the ball is, the faster and further the ball can move. Additionally, Khan Academy writes, “The second law also tells us that acceleration of the football also depends on the mass of the football. If the player is throwing an extra heavy football, the acceleration of the football would decrease compared to a lighter football that is thrown with the same force.” (“Football Physics”). This quote explains that the lighter a ball is, the farther a ball can be thrown. Also, the farthest a ball can be thrown depends on the amount of force the person throwing applies to the ball. (“Football Physics”). When a ball is lighter due to less air pressure, the quarterback will be able to throw it further. The less mass makes the ball lighter, and this will allow the wind to be able to carry the ball
Many athletes use basketballs, soccer balls, and volley balls to play their sports. The balls need to have the right temperature and air pressure inside in order to work best. When a ball drops gravity pulls it down to the ground. After the ball hits the floor the ball gains motion that is
For example a tennis ball will bounce higher than a soccer ball because it has more air pressure and it is harder.
Kicking a ball is a fundamental movement that most individuals have learned to do since taking their first steps. However, kicking in the sport of soccer is the single most important aspect of the game. The success of the team derives heavily on proper technique and form of each player on the field. Good technique will not only increase the quality of the game
The game that America has come to know and love may have more behind it than everyday viewers and fans realize. Physics fuels every aspect of the game of football and is evident in the collisions that take place on every play. Watching a game of football can be a great learning tool to anyone interested in better understanding the laws of physics. Many great examples are provided on every snap. Mass, force, momentum, velocity and torque all play significant roles in the tackling action performed by players and the better you understand these terms the better you can begin to understand the game itself.
Soccer has been described as the most beautiful game in the world. It is certainly the most popular; it’s played by more than 265 million worldwide! Every four years, thirty-two countries from around the world gather - after going through a grueling qualifying process - to compete for the honor of raising the golden World Cup trophy.
Passing is the way to get the ball around in this sport. A major part of the of this action is friction. Air resistance affects the ball, it slows it down and brings it down toward the ground. Rolling friction is shown when you pass the ball, when you pass the ball, the ball rolls over the mesh and releases into the air. The mesh speeds the ball up along with force. Face-offs require a topic called inertia. Inertia is shown
This skill is crucial to the game of soccer. Without dribbling, moving the ball up and down the field would become a lot harder. Another one of the basic soccer skills is passing. Passing is exactly what the name implies. The act of passing means that one player gives the ball to another.
There is a dark cloud hanging over the world of contact sports and it is growing at an alarming rate. With the size and speed of today’s athletes, the sports of football and hockey have become more exciting, fast paced, wide open, and fun to watch. However, there is another consequence of these ever growing athletes on their sports. They have made the collisions in them increasingly more violent. The velocity that these athletes hurl themselves through the air has created an atmosphere that could not have been imagined when these sports were created. Although the athletes’ bodies have become
For instance a wide receiver whose game depends greatly on being able to accelerate quickly will prefer to play on an artificial surface with less friction. When a player gets in the open field he may be capable of reaching his maximum momentum. When this player's momentum is suddenly changed either with a great tackle or one hell of a hit the laws of physics concerning collisions, both elastic and inelastic, come into play.
Another basic element of basketball is that of passing the ball to another teammate. The physics involved in this process are velocity, momentum, and impulse. The ball has a mass and when it is thrown a velocity of the ball in created. From these two parts momentum is derived, P=mv (Kirkpatrick Wheeler 106). While playing basketball it may be to your advantage to increase or decrease the momentum of the ball when passing to a teammate depending upon the situation.
Since the ball is always in motion, it means the ball is being controlled by the objects around it: Players, floor. If the ball was not controlled by the objects stated, the ball would remain at rest, on the floor. Just how
Soccer is a popular sport played all over the world. Even though it has only been popular in the United States for the past 30 years, soccer has been a long time favorite most everywhere else. The sport dates back to the Egyptians, who played games involving the kicking of a ball. Now, the sport has grown to a global pastime, including men’s and women’s teams, and the World Cup (which is played every four years).
Soccer is a sport that’s very challenging and during the course of this semester I’ve found physics can also be described as challenging. As far as I was concerned soccer and physics were both challenging and that was all they had in common, consequently upon researching them both this semester I found that I was wrong. For me this was nothing new because I’ve found that physics isn’t a subject that can be skimmed, but rather it has to be studied to the finest detail. Those small details if missed can make all your efforts worthless. Or on the positive side understanding those details can make your efforts worth it in the end. And in soccer if you understand the physics, which to most players