The force from when the person throws it acts on it in the air. The ball is also affected by gravity but the force from the person throwing it is so much that the ball can overcome gravity until the force runs out and it falls back to the ground.
Wiki User
∙ 13y agoWiki User
∙ 16y agogravity, momentum, wind, air friction, spin. that's all i can think of.
A soccer ball will turn or bend in flight because of aerodynamics.
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.
In soccer, the net force is the overall force acting on the ball. This net force is determined by the combination of the force applied by the players kicking or passing the ball, the force of gravity acting on the ball, and air resistance. The net force influences the acceleration and direction of the ball during play.
The spin of a ball is caused by the forces acting on it, such as when it is kicked or thrown. Asymmetries in the ball's shape or the surface it interacts with can also contribute to its spin. This spinning motion affects the ball's trajectory and stability in flight.
In 3-5 sentences, summarize the balanced forces that are present when a soccer ball is resting on the ground, and the unbalanced forces that are present when a soccer ball is kicked and moves through the air or rolls on the ground
When you throw a ball, two forces are typically acting on it: the force exerted by your hand pushing the ball forward, and the force of gravity pulling the ball down towards the ground.
The two forces acting on a rolling ball are the force of gravity pulling it downward and the normal force exerted by the surface it is rolling on.
The two balanced forces acting on the ball are the force of gravity pulling the ball downward and the normal force exerted by your hand upward to support the ball's weight.
Either there are none, or if there are any, then the whole group of forces is balanced.
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.
When you kick a soccer ball, your foot exerts a force forward on the ball. In return, the ball exerts an equal force backward on your foot, causing your foot to feel the impact. This is an example of Newton's third law of motion: for every action, there is an equal and opposite reaction.
At the top of its midair height, the only force acting on the ball is gravity, pulling it back towards the ground. There is no upward force acting on the ball at that point unless external forces like air resistance or a gust of wind come into play.