Air pressure is the force that the air throws
Weight and mass have effects on the soccer ball
If the ball weighs more it is more difficult to kick it
Friction prevents the soccer ball to keep going forever because it slows down the ball
Gravity stops the ball from floating away forever
Momentum affects how far the soccer ball goes
Movement means the act of moving
Newton was a scientist who created the laws of motion
Newton’s first law of motion is also known as the law of inertia
When the ball is more inflated you can kick it longer because your kick transfers more energy to a more inflated ball than a not inflated ball
It’s very alike to a basketball because the basketball bounces more when it’s more inflated
Every Newton’s law affect this
…show more content…
The pressure in the ball has to be between 0.6-1.1
The ball has to be minimum 8.5 psi and maximum 20 psi
The pressure inside the ball affects how far the ball will go
The atmospheric pressure affects the distance because the less atmospheric pressure there is the less friction like if you kick the ball 1KM above sea level it will travel more than kicking the ball at sea level
If you kick the ball at higher heights the ball will go further because at higher heights there is less air density
Before the ball bounces in the ground the air pressure inside the ball is the same in all the ball
When the ball hits the ground the ball deforms and the air pressure increases in the deformed area and quickly through all the ball
When a soccer ball is inflated with less than 8.5 psi it’s more difficult to kick it and it’s considered to flat
When the psi is too high it’s difficult to control because it bounces more and it is tough
The speed average of kicking a ball by 10-17 year olds is 14.9 meters per second
The speed average of kicking a ball by a professional players is 30 meters per second
When you kick the ball the ball travels with constant friction with the air this generates turbulence in the posterior part of the ball and it makes it
* The bending of the knees and the use of the leg muscle groups to perform the skill.
The use of an underinflated football can provide an unfair advantage, as it is believed they can be better gripped, thrown, and easier to catch because the ball is softer.
For example a tennis ball will bounce higher than a soccer ball because it has more air pressure and it is harder.
The ball uses this kinetic energy to move up the usually 6 to 7 degree incline to the top of the playing field. The kinetic
When a soccer player kicks the ball, he transfers his momentum to the ball. Momentum is the velocity of an object times its mass.
The height of your kick depends on how high up the ball you hit. For example, if you kick 2/3 the up the ball, then the ball won’t get much height, leading to a blocked field goal. But, if you kick the ball 1/3 way up then the ball will get height and distance. Leading to a scoring field goal.
I have heard from some people that soccer is a boring sport, but the truth is, it’s a very interesting sport with a lot of excitement in it. When playing soccer, ball control is critical, you need possession of the ball in order to keep it away from the other team players, and at times, it can be fun because if you have possession of the ball most of the game,
The physics involved in soccer includes friction, torque, center of gravity, Magnus Effect and Newton’s three laws of motion. The physics of soccer comes from three main parts of physics which is velocity, acceleration, and displacement. Velocity is shown in soccer with the speed and direction of the soccer ball when it is hit or kicked. Acceleration is shown in soccer when the ball changes velocity when it is hit or kicked. Displacement is the change in position of the soccer ball.
Many people, right away, are probably thinking – “What is the big advantage of an under inflated football?” A deflated football gives the team using it a huge advantage. A physics professor, Mike Eads, from Northern Illinois University explain in terms of physics why a deflated football is an advantage,
As time evolved, the ball was eventually made out of a leather material. With this leather material, the ball became more durable and controllable. The rules back in the Renaissance were way different than the rules today. During the Renaissance, the game was commonly played between two streets, 27 men played on each side, and there were no strict rules or penalties. These rules impacted today’s in many different ways. Today, a field is 100 yards long and 60 yards wide. There are only 11 players on each team, and there are many strict rules. If it were not for the Renaissance period, Soccer would have never evolved into the great sport that many people love today. Many people enjoyed this sport during the Renaissance, which led to the popularity of the sport today. “Soccer is probably the most popular sport in the world, though it is most popular in European, African, and Latin American nations” (“Soccer”). Just like soccer, another sport that greatly influenced the modern day was Lawn Bowling.
Introduction: The experiment being tested is worth conducting as it can help people decide which ball to get if they want a bouncy one, either it is expensive, cheap, big or small. One fact on balls is that they are different and they bounce differently and are used differently. A netball has thinner layers than what a basketball does, and a basketball is more used for bouncing that a netball.
If the ball was heated the air pressure within it increased. The ball felt more inflated. The increased air pressure resulting in a higher bounce. Different types of inflatable and non-inflatable could be used in this experiment to see if the results were comparable to the basketball. Different surfaces could also be tested. Further research could benefit athletes as they could expect more consistent performance in sports balls. The research could be expanded to improve the quality-reliability, safety and performance of vehicle tires as well. The next problem addressed could be whether different surfaces could affect the rebound of a ball or the performance of a tire. More research in this question could result in better athletic performance indoors and out. It could provide valuable information for manufacturers of sports equipment. Vehicle tires and other devises that require a constant air pressure in order to perform
I don’t care if you are 8 or 36 years old, kicking a soccer ball will always be the same. If you ever see a ball in front of yourself, something in our minds catches our attention and we try to strike the ball as hard as we can. Today I am going to show you the proper way to kick a soccer ball.
The distance that you are able to kick the ball can be summed up with the equation for distance, d=RT, distance equals rate multiplied by the time. So speed and time are both very important when kicking the ball because it directly affects the distance. Soccer players vary the distances that they want to kick the ball. Skilled players can estimate very quickly how fast to make the ball move to make it go where they need it to. Before learning this equation in physics I just thought you kicked the ball, but now I know that when this equation is applied to soccer it means so much more. Soccer players can use this to help them judge how hard and fast they need to be able to kick the ball to make it go a certain distance. This is just another example of how physics, the small details, can be used to improve ones soccer skills.
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