A soccer ball is typically filled with air. The amount of air and pressure inside the ball can affect its bounce, weight, and overall performance on the field. Overinflating or underinflating the ball can impact a player's ability to control and maneuver it during gameplay.
air has mass, so yes.
The temperature of the ball does not affect the surrounding/outside air, but it does affect the air inside the ball.
Bounce is affected by the elasticity of the ball and its internal pressure. The more elastic and optimum pressure, the better the bounce. However, weight is another factor, a heavy ball with the same elasticity and internal pressure as another ball will not bounce as high since force is a function of mass and velocity.
Yes, ofcourse it does. Aerodynamics of a ball are decided by how much air is in the ball. Usually, more air in a ball gives it buoyancy and it travels over a longer distance.
If a ball is more deflated it provides more resistance for the energy to transfer into upwards motion
Yes it would. Speed will depend on Weight of the ball, Incline angle, Friction, and air pressure.
Yes, the air pressure in a ball can affect the distance it travels. Overinflated or underinflated balls may not travel as far as properly inflated balls because the amount of air pressure can impact the ball's bounce and flight trajectory.
Soccer ball
The combination of the material properties of a ball (surface textures, actual materials, amount of air, hardness/ softness, and so on) affects the height of its bounce.
Weight affects the amount of lift required to raise the weight. Thrust determines how much power is required to move the weight and at what speed.
The amount of air in a balloon affects its buoyancy and weight. A balloon with more air is heavier and may fall faster, while a balloon with less air is lighter and may stay in the air longer. Additionally, the amount of air can impact the balloon's stability and maneuverability.