In a series circuit, the voltage drop across each load will:

The correct answer highlights a fundamental principle of series circuits: the voltage drop across individual loads is directly related to the total source voltage. In a series circuit, the voltage drops across each component add up to equal the total voltage supplied by the source. Therefore, it is true that they will never exceed the source voltage.

Each load or resistor in the series circuit receives a portion of the total voltage based on its resistance relative to the total resistance in the circuit. According to Ohm’s Law, the voltage drop across each load is calculated by multiplying the current flowing through the load by its resistance. This ensures that while the individual voltage drops may vary depending on the resistance of each load, the combined total will always equal the source voltage, and thus be limited by it.

This concept helps in understanding the behaviors of series circuits, such as the dependency of each voltage drop on the others in the series. Hence, while it’s true that the voltage across each load never exceeds the source voltage, the stated relationship of their combination is critical in analyzing and designing circuits effectively.