Final answer:
Option C is correct when considering a voltage divider; it requires attention to load resistance, source resistance, and accuracy to function as expected in distributing voltage across its components.
Step-by-step explanation:
When designing or using a voltage divider network, three key considerations include load resistance, source resistance, and accuracy, which makes option C the correct choice. This is because voltage dividers are intended to distribute a voltage across a series of resistors proportionally to their values. The current in the dividers remains constant (as resistors are in series), and the total resistance is the sum of the individual resistances. It's also important to ensure that the load resistance is much larger than the source resistance to maintain accuracy. Inductance, capacitance, and impedance play roles in specific circuits, like RLC circuits in AC configurations where they affect the phase and amplitude of the current and voltage, but they are not necessarily primary considerations in a basic voltage divider design.