Respuesta :
Answer:
Its potential energy decreases and itselectricpotential increases.
Explanation:
The electric potential does not depend on the charge but only on the magnitude of the electric field. In particular:
- Electric potential decreases when moving in the same direction of the electric field lines
- Electric potential increases when moving in the opposite direction to the field lines
So in this case, since the electron is moving in a direction opposite to the field, the electric potential increases.
However, the electric potential energy of a charge is given by
[tex]U=qV[/tex]
where
q is the charge
V is the electric potential
Here we said that the electric potential is increasing: however, the charge q of an electron is negative. This means that the product (qV) is increasing in magnitude but it is negative, so the potential energy of the electron is decreasing.
For an electron moving in a direction opposite to the electric field its potential energy decreases and its electric potential increases.
What is electric potential?
Electric potential is the amount of work needed to move a unit charge from a point to a specific point against an electric field.it is denoted by U.
However, the electric potential energy of a charge is given by
[tex]\rm{U=qv}[/tex]
q is denoted for the charge.
V is denoted for the electric potential.
The above relation shows that the electric potential is inversely proportional to the electric potential energy.
The electric potential is independent of the charge. but it depends on the direction in which the charge is moving. If the charge moves in the direction of the electric field electric potential decreases and vice versa.
Here the electron is moving in a direction opposite to the field, the electric potential increases while electric potential energy decreases.
To learn more about the electric potential energy refers to the link.
https://brainly.com/question/12707371
