The force that acts on a ball when in the air is gravity.
When a ball is dropped, the main forces acting on it are gravity and air resistance. Gravity pulls the ball downwards towards the Earth, while air resistance pushes against the ball as it falls, causing drag. These forces determine the speed and trajectory of the ball as it descends.
When you throw a ball, two main forces act on it: the force of the throw propelling it forward, and the force of gravity pulling it downward. The throw provides the initial thrust while gravity causes the ball to follow a curved path back to the ground.
i think its compression and ... sorry i don't know the other one
When a soccer ball is kicked, the forces acting on it are initially unbalanced. The force applied by the player's foot creates an unbalanced force, causing the ball to accelerate. As the ball moves through the air, air resistance and gravity act as external forces, creating a balanced force system that eventually slows down and stops the ball's motion. This can be determined by analyzing the net force acting on the ball at any given moment, which is the sum of all external forces.
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.
Kinetic energy, momentum, gravity.
When a ball is dropped, the main forces acting on it are gravity and air resistance. Gravity pulls the ball downwards towards the Earth, while air resistance pushes against the ball as it falls, causing drag. These forces determine the speed and trajectory of the ball as it descends.
When you throw a ball, two main forces act on it: the force of the throw propelling it forward, and the force of gravity pulling it downward. The throw provides the initial thrust while gravity causes the ball to follow a curved path back to the ground.
i think its compression and ... sorry i don't know the other one
The force that acts on a ball when in the air is gravity.
When a soccer ball is kicked, the forces acting on it are initially unbalanced. The force applied by the player's foot creates an unbalanced force, causing the ball to accelerate. As the ball moves through the air, air resistance and gravity act as external forces, creating a balanced force system that eventually slows down and stops the ball's motion. This can be determined by analyzing the net force acting on the ball at any given moment, which is the sum of all external forces.
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.
When two forces act on a rubber ball, they can change its shape and size. The forces can compress or stretch the ball, affecting its elasticity and rebound characteristics. Additionally, the forces can also cause the ball to accelerate or decelerate depending on their direction and magnitude.
Two forces that act on a projectile are gravity, which pulls the projectile downwards, and air resistance, which opposes the projectile's motion through the air.
An air-shot is an act of attempting, but failing, to kick a soccer ball, missing the ball and kicking the air instead.
Once it is in the air, the main forces are gravity, and air resistance.
A ball comes to a stop when it is rolled across the floor due to various factors such as friction between the ball and the floor, air resistance, and the transfer of kinetic energy into other forms of energy like heat and sound. These factors act to slow down the ball's motion until it eventually stops.