Which of the following statements is true about the magnitude of the net electric field E and the net electric potential V, at the center of the square as shown below?
Which of the following statements is true about the magnitude of the net electric field E and the net electric potential V, at the center of the square as shown below?

E = 0; V ≠ 0
		E ≠ 0; V = 0
		E = 0; V = 0
		E ≠ 0; V ≠ 0

 

Transcribed Image Text:

The image features a square with four red circles at its corners. These circles represent charges, with two labeled "-q" at opposite corners and two labeled "+q" at the other opposite corners. This configuration creates a square distribution of charges. In the center of the square, there is a green dot labeled "P". Dashed lines connect point P to each of the four charges, indicating the potential interactions or forces between point P and the charges at the corners of the square. These lines may represent the lines of an electric field or the geometric relationships in the context of a physics problem involving charges. This setup is typical in electrostatics to illustrate concepts such as electric field, potential at a point due to multiple charges, or the principle of superposition in the context of electric forces and fields.