It is the energy stored in a body due to its shape and position.
Gravitational potential energy is typically measured in joules (J) in the International System of Units (SI).
The units of electrical potential energy are in joules (J), which is equivalent to kg.m^2/s^2 in SI units. This unit represents the energy stored in an electric field due to the configuration of charges.
That's a difference in electrical potential, not potential energy.It's described in units of "volts".
Work uses the same unit as energy. Ideally, you would use the same units for work, potential energy, kinetic energy, or any other type of energy. In the SI, that is the joule.
You use the same units as for any other type of energy.You use the same units as for any other type of energy.You use the same units as for any other type of energy.You use the same units as for any other type of energy.
volts
Potential energy is typically measured in joules (J) in the International System of Units (SI). It can also be measured in electronvolts (eV) in the field of particle physics.
The metric unit for potential energy is the joule (J). It is the amount of energy an object has due to its position or state.
The same units can be used for any type of energy - and in modern science, the same units ARE used. For example, the SI unit for energy is the joule.
Energy is measured in units of joules. It represents the capacity to do work and is used to quantify various forms of energy, such as mechanical, thermal, and potential energy.
Momentum does not have the same units as the others. Kinetic energy is measured in joules, potential energy in joules, work in joules, but momentum is measured in kilogram meters per second (kg m/s).
The mechanical energy of the fallen apple would be the sum of its kinetic and potential energies. Therefore, its mechanical energy would be 5.2 (kinetic energy) + 3.5 (potential energy), which equals to 8.7 units.