A bouncing ball has the most potential energy when it is at the top portion of its bounce.
Technically... A bouncy ball is at it's max. potential energy when it's still in your hand, but if you mean after it's been thrown, it's when it's at the highest point of that particular bounce.
When it is standing still, because it's energy still has potential. .........your welcome.......you know, it wouldn't hurt to say thank you....jack ass.
The ball is moving when it is bouncing so I'd say all the time until it completely stops.
When it is not moving and no external forces are acting upon it.
There is no "device" that is used to convert potential energy (PE) to kinetic energy (KE). PE is energy of position, for example, a bowling ball held over your head has the potential of breaking your foot if it were to fall. KE is energy of motion, for example, the energy the bowling ball has as it is falling toward your foot. The amount of PE the bowling ball had when it was motionless at some height above your head is approximately equal to the amount of KE the bowling ball has just before it lands on your foot.
Gravitational potential energy is proportional to the object's height and its mass. So if the car has more mass than the bowling ball has, then it also has more gravitational potential energy.
Think of a bowling ball sitting on a shelf. The ball itself is no different from a bowling ball sitting on the floor, but one of them contains enough potential energy to break the bones in your foot if you drop it. The energy that is converted when you stretch the elastic or string from its relaxed state is called potential energy by analogy, even though there's really no potential field equivalent to gravity.
Most likely the bowling ball. According to the laws of physics, an object with more inertia accelerates slower but is harder to stop. The bowling ball accelerates slowly but has a high mass. The beach ball accelerates quickly but has a low mass. So the bowling ball has more inertia.
The ball has the highest potential energy at its maximum height (15m in the air). At the beginning, the ball has only kinetic energy and no potential energy. But as the ball travels upward, kinetic energy is converted into potential energy. When the ball changes direction, there is no kinetic energy, as all of it is now potential energy. As the ball returns back down, potential energy is converted back into kinetic energy.
My bet is on the bowling ball. At 20000 ft the pull of gravity is only marginally smaller than that of the baseball bat at 2 ft above sea leval. Because both have been lifted to their respective hights giving them potential energy, I would keep out of the way of the ball.
There is no "device" that is used to convert potential energy (PE) to kinetic energy (KE). PE is energy of position, for example, a bowling ball held over your head has the potential of breaking your foot if it were to fall. KE is energy of motion, for example, the energy the bowling ball has as it is falling toward your foot. The amount of PE the bowling ball had when it was motionless at some height above your head is approximately equal to the amount of KE the bowling ball has just before it lands on your foot.
The most massive one. That's PROBABLY the bowling ball.
Gravitational potential energy is proportional to the object's height and its mass. So if the car has more mass than the bowling ball has, then it also has more gravitational potential energy.
Think of a bowling ball sitting on a shelf. The ball itself is no different from a bowling ball sitting on the floor, but one of them contains enough potential energy to break the bones in your foot if you drop it. The energy that is converted when you stretch the elastic or string from its relaxed state is called potential energy by analogy, even though there's really no potential field equivalent to gravity.
The bowling ball transfers its kinetic energy (energy of movement) to the stationary bowling pins.
Potential energy is sometimes called the energy of position. This means that it has the ability (potential) to become kinetic energy. A Bowling ball that is held over your head has potential energy. As soon as it is dropped and begins moving, the potential energy begins transforming into kinetic energy.
Kinetic energy is the energy a moving body - in this case, the bowling ball - has. The ball actually has two forms of kinetic energy: rotational and translational. The rotational energy is the energy of it's spin, and the translational energy is the energy of it's motion towards the pins.
A bowling ball rolling off a shelf and falling down onto a trampoline.
the second one because the little friction turns to thermal energy while the first one... no energy transformations are occuring. except potential energy
Anything that had potential energy then converted to kinetic energy. A good example would a ball. If you are playing bowling and you are swinging the ball backwards and about to through it foward, the ball has potential energy. Once you release it, and while the ball is falling it has kinetic energy. The energy of the changes from potential to kinetic energy. Hope this helps XD
they are not the same. kinetic energy is energe that an object has due to its motion. potential energy is stored and held in the readiness. for example kinetic energy would be like a bowling ball knocking over bowling pins. unlike kinetic energy, which is the energy of motion, potential energy is stored and may be used later on like a car stopping at a red light.