The horizontal distance makes no significant difference.
The higher off the ground something is, the greater its GPE is. GPE=mass x gravitatonal constant x height.
Height= GPE/gravitational constant(mass)
GPE=weight x height
GPE = Mass * Height so Mass = GPE/Height
It does not. GPE depends only on the height of the object over some reference level, and the gravitational attraction.It does not. GPE depends only on the height of the object over some reference level, and the gravitational attraction.It does not. GPE depends only on the height of the object over some reference level, and the gravitational attraction.It does not. GPE depends only on the height of the object over some reference level, and the gravitational attraction.
Weight*Height Mass*9.8*Height \
GPE = mgh (mass x gravity x height). You can use 9.8 for gravity.
Potential energy is the theory that an object has energy that can be released. Gravitational Potential Energy is an example of this. GPE is obtained as you gain height, the more height, the more GPE.
The gravitational potential energy is equal to: GPE = mass x gravity x height Or equivalently: GPE = weight x height
The potential energy decreases as the body falls while the kinetic energy increases. P.E.=mass x gravity x height The shorter the height the less potential energy there is K.E.= 1/2 x mass x velocity^2 The velocity increases as the body falls and the bigger the velocity the more Kinetic Energy produced
GPE = mass * acceleration of gravity * height. Original GPE : m*g*h Joules if you double the height, you get m*g*2h Joules, or 2*m*g*h -- twice the GPE.
Gravitational potential energy (gpe). Gravity is the reason for the dominoes descent, and it's also the reason why they don't stop until they hit the ground. By the way, gpe can be calculated by the following: GPE=mgh m=mass g=acceleration due to gravity (9.81m/s^2) h=height (distance from ground)