The amount of potential energy gained by an electron

The answer is: It is zero at infinity

The amount of potential energy gained by an electron is determined by the electric potential. Electric potential is the energy associated with a charged particle due to its location in an electric field. When an electron moves from one energy level to another, the difference in electric potential between the two energy levels is the amount of potential energy it gains or loses. This potential energy is measured in joules (J).

The amount of potential energy gained by an electron depends on the electrical potential through which the electron is accelerated. When an electric charge is applied, the energy gained by an object carrying the charge of one electron when it is accelerated through a potential difference is known as electric potential energy. This energy is measured in volts, which is the amount of energy an electron gains or loses as it moves from one energy level to another. To move to higher energy levels, an electron must gain energy, which is usually gained by someone. The amount of energy lost or gained depends on the energy levels you are at.

The amount of potential energy gained by an electron depends on the electric potential difference to which it is exposed. Electric potential, also known as electric potential energy, is the energy gained by an electric charge when it is accelerated through a potential difference. This potential difference is measured in voltage and is often expressed in volts. When an electron is exposed to a potential difference, it gains kinetic energy, which can be converted into other forms of energy, such as heat or light. The amount of potential energy gained by an electron is proportional to the potential difference to which it is exposed.