**At What Point Or Points On The Y-Axis Is The Electric Potential Zero?**. There is nothing to distinguis. Remember that electric field is a vector (magnitude + direction).

Let the point at which the potential is 0 be denoted (0, y), i.e. 100% (4 ratings) we know that the electric potential at a point due to a charge q is given by: Since the magnitude of charge is same in both the charges, the potential cancels out at each point on the y axis due to same distance from the charges.

### (B) [5 Points] What Is The Magnitude Of The Electric Field.

Where k is a constant equal to. Thus, v for a point charge decreases with distance, whereas for a point charge decreases with distance squared: The potential at infinity is chosen to be zero.

### For The Dependency Of Electric Potential (V) With Distance (R) Can Be Clearly Seen By The Given Formula.

The potential created by a point charge is given by: For like charges, the electric field will be zero closer to the smaller charge and will be along the line joining the two charges. Click here👆to get an answer to your question ️ a point charge q1 = + 2 mu c is placed at the origin of the xy coordinate system.

### Recall That The Electric Potential V Is A Scalar And Has No Direction, Whereas The Electric Field.

Let the point in which the potential between the two charges equal zero, lie between the two charges. The electric potential v of a point charge is given by. Experts are tested by chegg as specialists in their subject area.

### For Opposite Charges Of Equal Magnitude, There Will.

This problem cause the concept of the electric potential and let's assume a point b in between the church. Express your answer using two significant figures. If there is more than one.

### Our Equation Becomes Given Up On Our Equals Kill Two Upon Ar Minus Has.

Electric potential is a scalar quantity. This results in an electric field that points left (away from the positive change) and up (toward the negative charge). For example exactly half way (or otherwise equidistant from them) between two equal and oppositely charged point charges, potential is zero.