When a rubber ball is dropped from a height, it accelerates downwards due to gravity. As it falls, the ball's potential energy is converted into kinetic energy. Upon impact with the ground, the kinetic energy is transferred back into potential energy through deformation of the rubber material, causing the ball to bounce back up.
The rubber ball would bounce higher than the wooden ball when dropped at the same height. Rubber is an elastic material that can store and release more energy upon impact compared to wood, resulting in a higher bounce.
The height from which the ball is dropped is the independent variable, as it is what is being manipulated. The height of the ball's bounce is the dependent variable, as it is what is being measured and is affected by the height from which the ball is dropped.
Yes, the height of a bounce is affected by the height from which the ball is dropped. The higher the ball is dropped from, the higher it will bounce back due to the transfer of potential energy to kinetic energy during the bounce.
Yes, the height of a ball's bounce is affected by the height from which it is dropped. The higher the drop height, the higher the bounce height due to the conservation of mechanical energy. When the ball is dropped from a greater height, it gains more potential energy, which is converted to kinetic energy during the bounce resulting in a higher bounce height.
Yes, the height from which the ball is dropped is the independent variable in this scenario. It is the variable that is intentionally changed or manipulated to observe its effect on the height of the ball's bounce, which is the dependent variable.
rubber ball
The rubber ball would bounce higher than the wooden ball when dropped at the same height. Rubber is an elastic material that can store and release more energy upon impact compared to wood, resulting in a higher bounce.
The most massive one. That's PROBABLY the bowling ball.
The height from which the ball is dropped is the independent variable, as it is what is being manipulated. The height of the ball's bounce is the dependent variable, as it is what is being measured and is affected by the height from which the ball is dropped.
Yes - the greater the height an item dropped the resulting bounce is higher
Yes - the greater the height an item dropped the resulting bounce is higher
Yes.
Yes, the height of a bounce is affected by the height from which the ball is dropped. The higher the ball is dropped from, the higher it will bounce back due to the transfer of potential energy to kinetic energy during the bounce.
Yes, the height of a ball's bounce is affected by the height from which it is dropped. The higher the drop height, the higher the bounce height due to the conservation of mechanical energy. When the ball is dropped from a greater height, it gains more potential energy, which is converted to kinetic energy during the bounce resulting in a higher bounce height.
Yes, the height from which the ball is dropped is the independent variable in this scenario. It is the variable that is intentionally changed or manipulated to observe its effect on the height of the ball's bounce, which is the dependent variable.
The higher the ball is dropped from, the higher it will bounce back. This is due to potential energy converting to kinetic energy upon impact with the ground, propelling the ball higher when dropped from greater heights. Ultimately, the bounce height depends on factors like gravity, air resistance, and the material of the ball.
Variables that might affect the height to which a dropped ball will bounce include the material of the ball, the surface it bounces on, the height from which it is dropped, and the elasticity of the ball. Other factors may include air resistance, temperature, and any external forces acting on the ball during the bounce.