In physics, electric potential energy is the energy that an electric charge has due to its position in an electric field. The unit of electric potential energy is the joule (J).
The potential energy of a charge is given by the equation:
U = kqV
where U is the potential energy, k is the Coulomb’s constant, q is the charge, and V is the electric potential.
The electric potential of a charge is the amount of work that would need to be done in order to move the charge from its current position to a position of zero potential. In other words, the electric potential is the amount of energy required to move a unit charge from one point to another in an electric field.
The electric potential of a −3.00 nC charge is −9.00 V.
Other related questions:
Q: What is the electric potential energy of the nC charge?
A: The electric potential energy of the nC charge is equal to the product of the charge and the electric potential.
Q: How do you find the electric potential energy of a charge?
A: The electric potential energy of a charge is given by:
U = kq
where k is the Coulomb constant, q is the charge, and U is the electric potential energy.
Q: How do you find the electric potential energy of an electron?
A: The electric potential energy of an electron is given by:
U = eV
where e is the electron’s charge and V is the electric potential.
Q: What is the electric potential energy of the group of charges?
A: The electric potential energy of the group of charges is the sum of the electric potential energies of each individual charge.
Bibliography
- Solved A set of point charges is held in place at the – Chegg
- A set of point charges is held in place at the vertices … – Chegg
- Electric Potential Energy – Formula, Definition, Solved Examples – Byju’s
- electric potential | Definition, Facts, & Units | Britannica
- What Is an Electric Field? Definition, Formula, Example – ThoughtCo
- 3.00 nC are separatedby 35.0 cm .(a) What is the electric …