lol nothing
gravity and friction.
-- the gravitational attraction between the football and the Earth, acting vertically downward; -- the normal force of the ground or the shelf under the football, acting vertically upward. These two forces are precisely equal and opposite. If they're weren't, then the football would be accelerating vertically, not at rest.
In football, the key forces applied include kicking the ball (resulting in a contact force), passing the ball to a teammate, and running or sprinting (which involves accelerating and decelerating forces). Additionally, physical interactions such as tackling and blocking also involve forces between players.
Force-balancing (forces summing to zero) only works correctly on static systems, i.e. non-accelerating systems. In the case of an accelerating football, the sum of the forces (pressure from the quarterback's hand) equals the football's mass times its acceleration.
Crystal Palace is the name of a part of London and of a football club which is based there. There are no particular forces which act on them.
-- the gravitational attraction between the football and the Earth, acting vertically downward; -- the normal force of the ground or the shelf under the football, acting vertically upward. These two forces are precisely equal and opposite. If they're weren't, then the football would be accelerating vertically, not at rest.
obviously gravity and air, but other forces i'm not sure of. Just check physicsclassroom.com for additional information.
The same as everywhere else... If a force is applied, an object's velocity changes. In football, I would guess that the main forces involved (for the ball) are the force applied by player's feet (or other body parts), air resistance, and gravity.
Frictional forces between the football and the ground will eventually come to a stop due to the combination of rolling friction and air resistance. These forces act in the opposite direction to the motion of the ball, gradually reducing its speed and bringing it to a halt.
A free-body diagram of a football being kicked would include forces such as gravity pulling the ball downward, the force exerted by the kicker's foot pushing the ball forward, and air resistance opposing the ball's motion. The diagram would show these forces acting on the football as vectors.
In "Football Genius" by Tim Green, the opposing forces, primarily represented by the antagonistic football players and their coach, aim to undermine the protagonist, a young boy named Troy, who possesses an extraordinary ability to predict plays. Their goal is to maintain their dominance in the sport and discredit Troy's talents, which threaten their status and success. This conflict emphasizes themes of jealousy and competition, as well as the struggle for recognition and acceptance in the world of football.
Forces such as gravity, friction, magnetism, and applied forces can produce motion in objects. These forces can accelerate, decelerate, or change the direction of an object's motion depending on their magnitude and direction.