The higher it is located, the more potential energy it has.
This is called potential energy. The most common form of potential energy is an object suspended above the ground. Its height gives it potential energy, which is defined as mgh, where m is the mass, g is the gravitational constant, and h is the height.
The position of an object affects its gravitational potential energy (or GPE) because GPE is calculated by multiplying mass by the value for gravity (on Earth it's 9.81) and the objects height. The higher up an object is the more potential energy it will have because it has farther to fall.
It is true that an object has more potential energy as it is raised higher. ?As the object falls from a height, the force of gravity will convert the potential energy into kinetic energy. ?The further it falls, the more kinetic energy will be gained. ?Conversely, the higher an object is raised, the more potential energy it has.This follows the equation? work = force x distance that force movesTherefore, the higher an object is, the greater the distance that the force of gravity will move as it accelerates the object while it falls. ?As it approaches the ground, it will have lost all potential energy but it will have kinetic energy of the same amount.Important note: ?The discussion about all potential energy being converted to kinetic energy above ignores air resistance. ?In the real world, air applies a frictional force on a body and will have the effect of slowing the object. ?Therefore, some of the potential energy will actually be turned to heat rather than ?kinetic energy. ?Most school physics questions will also ignore resistance due to air and therefore the description above works perfectly well for almost every question that will be seen.
The car that is highest has the most potential energy.
First of all potential energy equation is : E=mgz E: potential energy / the unit is: joule (J) m: mass / the unit is: kilogram (kg) g: acceleration of gravity / the unit is: meter/second^2 (m/s2) z: height / the unit is: meter (m) Now the factors affecting the potential energy are: 1- mass 2- acceleration of gravity 3- height
Potential energy is the amount of energy stored in an object due to its height. This is maximum for an object which has maximum height and vice versa. So the most potential energy would be for object with greatest height.
He would have most potential energy when he hasn't started going down yet, since the higher he is, the greater his potential energy. Potential Energy= mass*gravity*height(from ground)
If you were talking about gravitational potential energy, assuming each ball was at the same height, the one with the most potential energy would be whichever is heaviest. If each ball weighs the same, whichever one is highest up has more potential energy.
This is called potential energy. The most common form of potential energy is an object suspended above the ground. Its height gives it potential energy, which is defined as mgh, where m is the mass, g is the gravitational constant, and h is the height.
Potential energy. Potential energy = mass * gravitational constant * height As you see, the further the electron is from the nucleus ( how " high " it is ) the more energy it contains. So, that would be the outer valance electron(s).
For example, in the case of gravitational potential energy, the formula is PE = mgh (the product of mass, gravity, height). Increase any of the three, and potential energy will increase.
Gravitational potential energy is the potential energy an object has due to its position in a gravitational field. The higher an object is the greater its gravitational potential. When it falls the gravitational potential becomes kinetic energy. Energy stored in height differences ~APEX
There are different sorts of potential energy but the most common in physics is gravitational potential energy. An object of mass m has a potential energy of mgh where g is gravity (9.81 in metric units) and h is the height above ground.
The position of an object affects its gravitational potential energy (or GPE) because GPE is calculated by multiplying mass by the value for gravity (on Earth it's 9.81) and the objects height. The higher up an object is the more potential energy it will have because it has farther to fall.
it is the energy of position and most objects have gravitational potential energy, all they need is a height, and to NOT have a spring/elastic
the object that has the most potential energy is whatever is not moving but is ready to move like flinging a rubber band let's say you holding it back now it has energy stored in it then once you let go and it flings it has kinetic energy which is a different story but that is my answer F.Y.I kinetic energy is when it energy is being used and dies down back into potential .......... get it now ;);0
mass