GPE = Mass * Height so Mass = GPE/Height
To find the height using gravitational potential energy (GPE) and mass, you can use the formula for GPE: ( \text{GPE} = mgh ), where ( m ) is the mass, ( g ) is the acceleration due to gravity (approximately ( 9.81 , \text{m/s}^2 ) on Earth), and ( h ) is the height. Rearranging the formula to solve for height gives you ( h = \frac{\text{GPE}}{mg} ). By substituting the values of GPE and mass into this equation, you can calculate the height.
Weight*Height Mass*9.8*Height \
The gravitational potential energy is equal to: GPE = mass x gravity x height Or equivalently: GPE = weight x height
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.
The answer depends on whether the cylinder ison a base so that its top moves up,suspended from its middle so that its bottom and top both move away from its middleattached to the underside of the ceiling so that its bottom moves down.It also depends on the reference point (zero-point) for the gravitational potential energy (GPE).If it is placed on a surface, and if that surface forms the zero point for GPE, then the GPE will also double.
The variables that affect gravitational potential energy (GPE) include the mass of an object, the height at which the object is located, and the acceleration due to gravity at that location. GPE is given by the formula GPE = mgh, where m is the mass of the object, g is the acceleration due to gravity, and h is the height of the object.
Height= GPE/gravitational constant(mass)
The horizontal distance makes no significant difference.
The two factors that affect how much gravitational potential energy (GPE) an object has are its mass and its height above the reference point where GPE is defined. The higher the object is positioned above the reference point and the greater its mass, the more GPE it will possess.
GPE=weight x height
The amount of gravitational potential energy (GPE) an object has is influenced by its mass, height above a reference point, and the acceleration due to gravity. GPE is calculated as mass multiplied by height multiplied by the acceleration due to gravity.
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.
To find the height using gravitational potential energy (GPE) and mass, you can use the formula for GPE: ( \text{GPE} = mgh ), where ( m ) is the mass, ( g ) is the acceleration due to gravity (approximately ( 9.81 , \text{m/s}^2 ) on Earth), and ( h ) is the height. Rearranging the formula to solve for height gives you ( h = \frac{\text{GPE}}{mg} ). By substituting the values of GPE and mass into this equation, you can calculate the height.
The gravitational potential energy (GPE) of a ball depends on its mass, height above the reference point, and the acceleration due to gravity. The formula to calculate GPE is GPE = mass x gravity x height.
Weight*Height Mass*9.8*Height \