M = Mass
G = Gravity ( 9.8 m/sec )
H = Height
mass x gravity x height
PE = mgh (potential energy = mass x gravity x height).
If using the formula U=mgh, then potential energy increases when the height above the ground increases.
PE=mgh M=3kg H=2kg G=10m/s2
it will become three time, as potential energy=mgh substitude, h'=3h than potential energy=mgh' =mg(3h) =3(mgh) =three times original potential energy
Gravitational Potential Energy (GPE) = Mass (m) x Gravity (g) x Height (h) Now assuming g = 9.8ms-2 we can rearrange the formula to give us our answer, so the formula becomes: h = GPE/m x g h = 40/2 x 9.8 h = 2.04 metres
PE=MGH means the potential energy equals to the mass times the gravity times the height
Potential Energy
PE = mgh (potential energy = mass x gravity x height).
If using the formula U=mgh, then potential energy increases when the height above the ground increases.
PE=mgh M=3kg H=2kg G=10m/s2
Potential Energy Is Stored Energy The Formula For Potential Energy Of An Object is Ep=mgh Which Is Mass Mulitpled by Gravity Then By Height.
Gravitational Potential Energy is equal to Potential Energy therefore the formula for GPE (Gravitational Potential Energy) is PE=mass x gravity x height therefore the formula is PE=mgh
This can be deduced quite simply from the formula for potential energy: PE = mgh (potential energy = mass x gravity x height)
PE=mgh (mass x gravity x height)
If you mean gravitational potential energy, you use the formula PE = mgh (potential energy = mass x gravity x height).
it will become three time, as potential energy=mgh substitude, h'=3h than potential energy=mgh' =mg(3h) =3(mgh) =three times original potential energy
it will become three time, as potential energy=mgh substitude, h'=3h than potential energy=mgh' =mg(3h) =3(mgh) =three times original potential energy