Question Video: Recognizing That to Produce a Potential Difference Separated Charges Must Have Opposite Signs Science • Third Year of Preparatory School

Video Transcript

Two identical rods are shown in the following figure. At the ends of the rods are electric charges. Positive charges are shown in red and negative charges are shown in blue. All the charges have equal magnitudes. The charges cannot move. Which rod has the greater electric potential difference across it? (A) Rod A, (B) rod B, or (C) the potential difference is the same across each rod.

To answer this question, we need to work out which rod has the greater potential difference across its ends. Let’s first remind ourselves of the relationship between potential difference and electric charge.

We can recall that opposite charges attract. If we place a positive charge and a negative charge a distance apart, there will be an attractive force between them that pulls them towards each other. If we wanted to keep these charges separate, we’d need to do work on the charges so they had enough energy to overcome this attractive force. When we separate opposite charges like this, we create an electric potential difference between them. Note that we have opposite charges here. Opposite charges attract each other, so work needs to be done to keep them separate. This is what leads to a potential difference.

Like charges do not attract. In fact, they actually repel each other. So, if we have two negative charges, for example, we don’t need to do any work to keep them separate. This means there’s no potential difference between like charges. In short, a potential difference is only created when opposite charges are separated.

Now that we know this, we’re ready to answer this question. Which of these rods has the greater potential difference across it? First, let’s look at rod A. We can see that there’s a negative charge on this side of the rod and a positive charge on this side. Here, we have opposite charges that have been separated by a distance. This means there is a potential difference across this rod.

Now, let’s look at rod B. Rod B has a total of four negative charges, two on this side and two on this side. Since all the charges are negative, there are no separated opposite charges here. So, there is zero potential difference across this rod, since the charges on both ends are the same. So, rod A must have a greater potential difference across it than rod B, since rod B has no potential difference across it at all. The correct answer to this question is therefore option (A).