To kick a soccer ball, the distance between the kick location and the landing is measured. The initial vertical speed of the ball is about 20 meters per second. The horizontal speed is 12 meters per second. The height of the ground and the angle at which the ball is kicked determine the angle at which the ball will land. Depending on the distance, the soccer ball will travel at different speeds. A level field has a relatively flat surface.

## How is a Soccer Ball Kicked on a Level Field

How is a Soccer Ball Kicked on a Level Field? When a soccer ball is kicked on a level field, it moves up and down in the air. The lift and drag forces will vary with the shape and size of the soccer ball. The ball will experience a change in velocity and will rotate as it flies. A level field creates a stable environment for the soccer ball. If the field is uneven, the gravity of the soccer ball will shift.

The center of gravity of a soccer ball will vary depending on its mass. The average weight of a major league soccer ball is one pound, which is the center of gravity. The force is directed toward the center of the earth, depending on the object’s mass. The weight distribution will depend on the amount of mass, and the center of gravity. For this reason, the distance between the center of the earth and the soccer ball should be measured on a level field.

# What Happens When a Soccer Ball is Kicked Horizontally?

What happens when a soccer ball is kicked horizontally? Its initial velocity is determined by the height of the hill at which it is thrown. The ball lands at a distance of 35.0 meters from the edge. Considering that the soccer ball reaches the ground at a speed of nine kilometers per hour, the distance traveled is approximately three and a half times its initial height. The time required for the soccer-ball to reach the ground is about four seconds.

Let us examine what happens when a soccer ball is kicked horizontally. We can measure the distance traveled by the ball. The initial velocity of the soccer ball is 25 m/s at a 45-degree angle to the horizontal. It lands at a distance of 35.0 meters from the edge of the hill. Then, we can calculate the vertical take off velocity. The vertical take off velocity, which is the distance traveled by the soccer ball during flight, is twelve meters.