The Brightness of Light Bulbs in a Series Circuit

What Happens to the Brightness of Light Bulbs in a Series Circuit?

An unknown number (greater than two) of light bulbs are connected in series, and then the combination is connected across the terminals of a battery. Each connecting wire has zero resistance. The resistances of the light bulbs are also unknown, and they are not necessarily all the same.

What happens to the brightnesses of the remaining light bulbs when one of the light bulbs is chosen at random, removed from the circuit, and replaced with a wire of zero resistance?

Multiple Choice:

a. They decrease.

b. Some increase and others decrease depending on the resistances of the light bulbs.

c. They stay the same.

Final answer:

The brightness's of the remaining light bulbs stay the same when one of the light bulbs is removed from the circuit and replaced with a wire of zero resistance in a series circuit.

Explanation:

When light bulbs are connected in series and one of them is chosen at random, removed from the circuit, and replaced with a wire of zero resistance, the brightness's of the remaining light bulbs remain the same.

In a series circuit, the same current flows through each component. Therefore, removing a light bulb and replacing it with a wire of zero resistance does not change the current or voltage in the circuit. As a result, the brightness of the remaining light bulbs does not change.

What is the effect on the brightness of the remaining light bulbs when one light bulb is removed from a series circuit and replaced with a wire of zero resistance? The brightness of the remaining light bulbs stays the same in a series circuit when one light bulb is replaced with a wire of zero resistance.
← Potential energy calculation of a wagon at the top of a hill Calculating volume charge density of a charged cylinder →