On earth, mass and height. PE = mgh
Weight and height. (note that m*g, as above, equals weight). This therefore applies not just on Earth.
There are two factors that determine and object's kinetic energy. The two main factors are mass and velocity.
The two factors are Force and distance, e.g. mgh or f.r or mv2 = (mv2/r) r
Potential energy can be descirbed in many forms: gravitational potential, electrical potential and so forth. For gravitational potential energy, the formula is E=mgh, where E is the gravitational potential energy, m is the mass of the object , g is the strength of the prevailent gravitational field and h is the height above that field. In this instance, the factors determing the potential energy are threefold; the mass, the gravitational field strength and the height. For electrical potential, the factors vary depending on what electrical field, componant or senario you are dealing with. In essence, an object has electrical potential energy when it has become charged (such as an Ion), or it is feeling the effects of conflicting magnetic feilds and motion (as in electro-magnetic induction).
When you lift an object, the energy transferred to the object is called gravitational potential energy.
The two factors are the energy-moment,'L' and the distance form origin. The energy-moment for masses is mGM and the potential energy = - mGM/r. For photons the energy moment is hc and the potential energy = -hc/r. For electric charges the energy moment is e2zc and the potential energy = -e2zc/2r = -ahc/r where a is the fine structure constant. Notice the e2/2 indicates that e is an rms charge or effective charge.
Height above the ground, and mass of the object itself.
Its weight and the height Thank you....
-- the object's mass -- its height above some reference level
There are two factors that determine and object's kinetic energy. The two main factors are mass and velocity.
The two factors are Force and distance, e.g. mgh or f.r or mv2 = (mv2/r) r
The two factors, assuming in our earth planet, are object mass and its height away from the earth ground or any selected zero level.
Gravitational potential energy = (weight of the object) x (height) or Potential energy = (mass) x (acceleration of gravity) x (height)
Potential energy can be descirbed in many forms: gravitational potential, electrical potential and so forth. For gravitational potential energy, the formula is E=mgh, where E is the gravitational potential energy, m is the mass of the object , g is the strength of the prevailent gravitational field and h is the height above that field. In this instance, the factors determing the potential energy are threefold; the mass, the gravitational field strength and the height. For electrical potential, the factors vary depending on what electrical field, componant or senario you are dealing with. In essence, an object has electrical potential energy when it has become charged (such as an Ion), or it is feeling the effects of conflicting magnetic feilds and motion (as in electro-magnetic induction).
PE=mgh So the 2 factors that effect gravitational potential energy are: -Mass of the object. -The height of the object.
Look at the formula for gravitational potential energy. The clues are all there.
The two variables that determine gravitational potential energy are height above earths surface mass (also air resistance may come into play but in physics friction and air resistance are usually ignored and)
When you lift an object, the energy transferred to the object is called gravitational potential energy.