The forces on a kicked soccer ball are unbalanced because the force of the kick is greater than the force of air resistance initially. This causes the ball to accelerate and move in the direction of the kick. Once the ball reaches a constant speed, the forces become balanced.
the soccer ball will move because a force has acted on it.
Yes, a soccer ball is an object that moves. When kicked or thrown, it travels through the air or bounces along the ground.
When a soccer ball is kicked, the main forces acting on it are the force applied by the kicker's foot, gravity pulling the ball downward, and air resistance opposing the ball's motion through the air. Additionally, there may be frictional forces between the ball and the ground upon impact.
the action force is your foot when u strike the ball the reaction force is the ball being kicked
the action force is your foot when u strike the ball the reaction force is the ball being kicked
The object at rest will remain at rest unless there is an outside force applied. Example: There is a basketball on the floor. Suddenly, a soccer player kicked it. Explanation: While the basketball is on the floor, it applies force, that is why it is stable--not moving. Then when the soccer player kicked the ball, that is the time that an outside force was applied.
The possible speed of a kicked soccer ball varies directly with the force applied over a certain area of the soccer ball, but average speeds are between 20 and 60 miles per hour, while the highest would be upwards of 90 and 100 miles per hour.
Yes, gravity affects a soccer ball when it falls. The force of gravity causes the ball to accelerate towards the ground at a rate of 9.8 m/s^2. This acceleration causes the ball to pick up speed as it falls.
friction
Kicking a soccer ball will propel it forward with force, causing it to move in the direction of the kick. The force of the kick will also determine the speed and trajectory of the ball.
2.85 J.