electric potential energy

Define the electric potential energy difference between two points in an electric field.

Voltage (abbreviated V) is the term for the difference in electric potential energy.

Electric potential energy is experienced by charges both different and alike, as they repel or attract each other.

All their kinetic energy must become electric potential energy.

We say the ions have electric potential energy, and are moving to lower their potential energy.

Liberation of the electric potential energy results in fragmentation of the product ion.

Difference in electric potential is also known as voltage or electric potential energy difference.

The total electric potential energy due a collection of N charges is calculating by assembling these particles one at a time:

Stretching a rubber band increases its elastic potential energy, which is a form of the electric potential energy.

The photon is destroyed in the process and the absorbed radiant energy is transformed to electric potential energy.

The following outline of proof states the derivation from the definition of electric potential energy and Coulomb's law to this formula.

Electrical energy is the energy newly derived from electric potential energy or concretic energy.

The hartree energy is equal to the absolute value of the electric potential energy of the hydrogen atom in its ground state.

A mixture of a fuel and an oxidant has a chemical potential energy, which is another form of the electric potential energy.

Electric potential energy:

The electric potential energy of the ions is converted to kinetic energy of the neutrals in each collision.

This requires that the variations in internal chemical potential are matched by equal and opposite variations in the electric potential energy.

A related quantity called electric potential (commonly denoted with a V for voltage) is equal to the electric potential energy per unit charge.

An object may have electric potential energy by virtue of two key elements: its own electric charge and its relative position to other electrically charged objects.

For two point-like charges Q and Q at a distance r this work, and hence electric potential energy is equal to:

Nuclear potential energy, along with electric potential energy, provides the energy released from nuclear fission and nuclear fusion processes.

The transformation of the electric potential energy in a vibrational mode of the lattice is remarkably facilitated by the electronic confinement in a double-barrier structure.

A SASER device transforms the electric potential energy in a single vibrational mode of the lattice (phonon).

It is often referred to as "electric potential", which then must be distinguished from electric potential energy by noting that the "potential" is a "per-unit-charge" quantity.

In particular, for a region with constant potential V (zero field), the electric potential energy qV is simply added to E, resulting in a phase shift: