The ball would bounce back to where it was dropped.
If we start with the girl stationary then first she jumps which is the transformation of chemical potential energy to kinetic energy by her leg muscles. As she gains height that kinetic energy (ke) is converted into gravitational potential energy (gpe) which is at a maximum at the top of her jump. As she falls back down again the gpe is converted back into ke. As she lands on the trampoline the ke is stored as potential energy in the springs of the trampoline. As she starts to bounce back up again the springs potential energy is converted into ke and the process repeats.
This can happen in many sports. One common example is anything that involves a ball - of the type that can bounce when they fall. In such a ball, when it falls down, gravitational potential energy is converted into kinetic energy; later, when it touches the ground, the kinetic energy is converted into elastic energy. When the ball bounces back, part of this elastic energy (typically, most of it) is converted back into kinetic energy.
Kinetic energy is transformed in Potential elastic and back.
the potential energy gets changed into kinetic energy so when it hits the ground it will bounce back up.
Seriously -.-' First of all When You throw The Basketball it is going up^ Which is Kinetic energy when is comes down and STOPS it is Potential energy. Oh And this question is in the 6th grade science textbook! The orange textbook....so yeah. BYe
When the ball hits the ground, kinetic energy is turned into potential energy and stored momentarily as the ball compresses. As the ball rebounds, the potential energy is converted back to kinetic energy. Some energy is also lost in the form of heat and air waves (sound). This continues with each bounce and due to the loss of energy, the ball gradually stops bouncing.
If we start with the girl stationary then first she jumps which is the transformation of chemical potential energy to kinetic energy by her leg muscles. As she gains height that kinetic energy (ke) is converted into gravitational potential energy (gpe) which is at a maximum at the top of her jump. As she falls back down again the gpe is converted back into ke. As she lands on the trampoline the ke is stored as potential energy in the springs of the trampoline. As she starts to bounce back up again the springs potential energy is converted into ke and the process repeats.
kinetic and potential energy.
This can happen in many sports. One common example is anything that involves a ball - of the type that can bounce when they fall. In such a ball, when it falls down, gravitational potential energy is converted into kinetic energy; later, when it touches the ground, the kinetic energy is converted into elastic energy. When the ball bounces back, part of this elastic energy (typically, most of it) is converted back into kinetic energy.
Kinetic energy is transformed in Potential elastic and back.
the potential energy gets changed into kinetic energy so when it hits the ground it will bounce back up.
Seriously -.-' First of all When You throw The Basketball it is going up^ Which is Kinetic energy when is comes down and STOPS it is Potential energy. Oh And this question is in the 6th grade science textbook! The orange textbook....so yeah. BYe
Potential energy occurs in a spring when it is stretched because it now has the potential to bounce back with kinetic energy it is said to have elastic potential energy (EPE)
Mainly, what much energy of other types was converted to elastic energy. For example: if a ball falls from a certain height, and assuming a perfect bounce and no air resistance, all the potential energy is converted to kinetic energy as the ball falls down, which in turn is converted to elastic energy when it hits the floor. Then the elastic energy is converted back into kinetic energy, as the ball bounces back up.
kinetic energy is enegy being used, the opposite of potential energy, which is energy being stored, or waiting to be used. When a ball bounces it is using its energy. When a ball is held by a person, it holds potential energy, or the potential to use energy.
The 'bounce' of a trampoline is generated by the movement of the trampoline springs, situated around the frame of the trampoline and connected to the trampoline bed. The more trampoline springs that a trampoline has, the better bounce the trampoline will generate. The quality and effectiveness of a trampolines' bounce is also impacted by the amount of movement there is on the bed, more weight again generates more bounce.
kinetic