Classical Mechanics
Gravitational PE Calculator
Solve PE = mgh for potential energy, mass, height or gravity. Works for any planet.
What is Gravitational Potential Energy?
Gravitational potential energy (GPE) is the energy an object possesses due to its position in a gravitational field. The higher an object is raised above a reference point, the more GPE it stores. When released, this energy converts to kinetic energy — the principle behind roller coasters, hydroelectric dams, and falling objects.
Variables Explained
| Symbol | Name | Unit | Description |
|---|---|---|---|
| PE | Potential Energy | J | Energy stored due to position in a gravity field |
| m | Mass | kg | Amount of matter in the object |
| g | Gravity | m/s² | 9.81 m/s² on Earth; 1.62 on Moon; 3.72 on Mars |
| h | Height | m | Vertical distance above the chosen reference point |
💡 GPE is measured relative to a chosen reference level. Only changes in GPE are physically meaningful. The ground, sea level, or any convenient point can be h = 0.
Conservation of Energy
In a frictionless system, mechanical energy is conserved: PE + KE = constant. As an object falls from height h, its PE decreases while its KE increases by exactly the same amount. At the lowest point, all PE has converted to KE. This is why a ball dropped from 5 m always reaches the same speed at the bottom, regardless of how it was released.