Data Sheet Table 1: point charge and a plate Note: You must use same Regions Vol

Question

Data Sheet Table 1: point charge and a plate Note: You must use same Regions Voltage of nearest Distance Electric Charge density (C/mp) two equipotential! lines (V) field strength EN/m) r) |between lines Ax (m) intermediate l'·25,1,10,25 |.029 5, 1.5, 05y9 Weakest Table 2: A dipole Regions Electric Charge density field strength E(V/m) Voltage of nearest Distance two equipotential! lines () |between lines/ I M Ax (m) Strongest Intermediate Weakest Questions: Use the given space to answer following questions. (Provide clear and concise explanation) 1) Explain what the direction of the electric field indicates. How do the voltages labeled on your map help you determine which way the electric field points?

Explanation / Answer

1, The direction of electric field can tell us about increase or decrease in the potential. It is directed such that a positive test charge is either pushed or pulled depending on the region surrounding it.

2, With electric field strength as 3E, the electric field lines will be more closer and more densed.

3, Two electric field lines cannot cross because if we draw two field lines crossing, it means field has two different directions at the same point which is not possible at all.

4, If a charge is moved along an equipotential surface ( along which there is no change in potential ) the work done is zero. It means there is no force and no acceleration. The charge will move with constant velocity.

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