the formulae for gravitational potential energy is =mgh,wher m=mass g=10 m/s2 and h=height.incomplete question.u should mention the height of the hill.it will be =057*10*height of the hill
The tennis ball's potential energy is 4.47 joules.
(Potential) energy is directly proportional to the release height.
If I'm not mistaken. The formula for Potential Energy in Physics is PE = mgy wherein PE = Potential Energy, m = mass, g = acceleration due to gravity, and y = height. As you will be able to observe potential energy will be produced when the object has a height. Like a person on top of a building, a tennis ball in the air, etc. What if the object has no height? - Well, it's simple. When we let y = 0, and multiply it to g and m, PE = 0. Therefore there will be no potential energy produced.
It can be. A body has potential energy when it has been operated on so that work has been done which can then be released, ie it has potential to do work. For example a weight has been raised by using a force to raise it against gravity. But then the weight could also be moving so that it would also have kinetic energy.
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
The one with the greatest mass has the greatest inertia. So, it will be the bowling ball.
(Potential) energy is directly proportional to the release height.
if the tennis ball is stationary the energy in it is its gravitational energy given by the formula MGH=E where H is height in m M is mass of tennis ball in kg and G is 9.8 meters per second squared. if the ball is moving however the formula for energy from velocity is 1/2MV2=E ware M is mass in kg and V is velocity in meters per second
Absolutely. Kinetic energy, in other words, means that the object in question is moving. Potential energy is measured in distance from the ground. The higher the object, the more potential energy it has. An object can be moving and can be off the ground, so, technically, yes.
If I'm not mistaken. The formula for Potential Energy in Physics is PE = mgy wherein PE = Potential Energy, m = mass, g = acceleration due to gravity, and y = height. As you will be able to observe potential energy will be produced when the object has a height. Like a person on top of a building, a tennis ball in the air, etc. What if the object has no height? - Well, it's simple. When we let y = 0, and multiply it to g and m, PE = 0. Therefore there will be no potential energy produced.
Some energy is lost as heat or as other forms.
It can be. A body has potential energy when it has been operated on so that work has been done which can then be released, ie it has potential to do work. For example a weight has been raised by using a force to raise it against gravity. But then the weight could also be moving so that it would also have kinetic energy.
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
If a tennis ball is cooler then the atoms have less energy so it may hypothetically bounce lower than if it was warmer
The short answer is that mechanical energy, which is the sum of gravitational potential energy (= mgh) and kinetic energy (= 1/2 * mv^2) must remain constant as the ball drops. By dropping the ball from a higher point, you're increasing the value of mgh, thus giving it more energy with which to bounce back up.By simplifying the problem with assumptions (no friction/air resistance, perfect elasticity, instantaneous impulse, etc.) it can be shown that a ball dropped from height "H" will accelerate as it descends downwards, bounce off a flat surface, decelerate as it ascends back upwards and exactly reach its original height "H".
No Minimum Height! :)
3.5ft or 4ft
The official height of a table tennis net is 15.25 cm(6.0 in). Which converts to 0.1525 metre.