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The speed involved in the velocity is defined as the distance an object covers by time, which means that speed is equal to distance. It is usually measured in meters per second. Velocity, which is usually abbreviated as “V,” is proven by the formulae V= displacement/ time. This means that for there to be any velocity, there has to be a displacement of an object, which is subject to the time that it covers usually measured in seconds. This article looks at the various velocity forces that are effected in soccer among various world known soccer players.
It looks at the differences in horizontal and vertical velocity while still keeping focus on accuracy, which is hitting the goal. Velocity acceleration shows how an object changes its speed overtime within a given duration of time. When the object is travelling at a constant velocity, it means that the object is travelling at a steady speed in a particular direction. When an objects speed is increased when moving to a particular direction, it means that the object is referred to be accelerating.
Contrary, if the object is reducing its speed, the object is said to be decelerating. In a mathematical approach, we can derive the formulae of velocity as follows. Average Velocity (V) = change in position = Displacement (D) Time (T) Time (T) One of the velocities that affect soccer is angular velocity. This special measure is used to evaluate the speed at which an object such as a soccer ball spins if it is locating on its axis in a circular movement. Soccer balls are usually circular in shape.
This measure is usually described in radians per second or per minute. In other measures, it is usually measured in cycle per minute or even rotations per minute. If the soccer ball is measured in rotations, we describe this as rotational speed. Secondly, we have horizontal velocity. This special measure is used to evaluate the speed at which an object such as a soccer ball moves in a horizontal direction over a given time. Similarly, to the angular velocity, the horizontal velocity measure the speed, distance covered, and time spent by that object to cover that distance.
It involves the displacement of an object from one position to another. The third type of velocity is the vertical velocity. This involves the displacement of an object such as a soccer ball to move vertically into a higher position from its original surface or to move vertically from a higher surface towards a lower position without moving into another direction. An example can be hitting a soccer ball into the air, vertically, or throwing a stone upwards aiming to hit a bird that is up in the air.
All this types of velocities are used in the soccer game. They involve the players hitting the ball to pass to a different player, or aiming to score a goal. Velocity has a direct relation with soccer. When a player hits the ball, it accelerates and gains speed or velocity. This happens in that the ball moves to the direction, which is hit. However, this ball reduces the speed as it moves to the direction. A cause of this reduction in speed is often due to the resistance that the soccer ball faces.
One of the causes is wind. The ball displaces the air where it is headed to, which causes resistance. This in turn slows the ball and eventually slows down. A recent research was carried out on the effect of velocity on soccer. It involves soccer players Marco Van Basten, Dennis Bergkamp, Lionell Messi and Robin Van Persie. These soccer players
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