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.
It is the sum of the forces applied by each
No. Work simply means that an object moved as a force was applied.
When the opposing forces are not balanced, it can result in :- 1. Translation - when the unequal forces are being applied at the same point. 2. Rotation - when the unequal forces are being applied at different points.
No, the law of applied forces does not state that a body's change in mass is proportional to the amount of force applied to it. The law of applied forces states that the force applied to a body is equal to the mass of the body multiplied by the acceleration of the body. So, if the acceleration of a body increases, the force applied to it will also increase, but the mass of the body will remain the same.
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.
It is the sum of the forces applied by each
When the opposing forces are not balanced, it can result in :- 1. Translation - when the unequal forces are being applied at the same point. 2. Rotation - when the unequal forces are being applied at different points.
No. Work simply means that an object moved as a force was applied.
When the opposing forces are not balanced, it can result in :- 1. Translation - when the unequal forces are being applied at the same point. 2. Rotation - when the unequal forces are being applied at different points.
No, the law of applied forces does not state that a body's change in mass is proportional to the amount of force applied to it. The law of applied forces states that the force applied to a body is equal to the mass of the body multiplied by the acceleration of the body. So, if the acceleration of a body increases, the force applied to it will also increase, but the mass of the body will remain the same.
The answer depends of the forces applied to the beam: - for a single-directional force, the answer is a hollow rectangular shape (with the force applied on the narrow face); an I-beam is the second best. - For forces applied in two perpendicular directions, the answer is a hollow square section. - For forces applied from any direction, the answer is a hollow circular bar - a pipe.
lol nothing
Projectile motion as the football is thrown, forces as the football is thrown as well.
Foreces that are applied to or act at the same point.
It didn't
the object(s) with the forces applied are constant, does not move and do not change direction.