Which type of load is best described as having a constant power draw?

A resistive load is characterized by a constant power draw because it operates with a linear relationship between voltage and current. In a resistive load, the resistance remains constant regardless of changes in voltage or current levels, leading to power consumption that can be calculated using the simple formula ( P = V \times I ), where ( P ) is power, ( V ) is voltage, and ( I ) is current.

This means that under steady-state conditions, as long as the voltage and resistance are constant, the current will also remain constant, allowing the power consumed to stay the same. Common examples of resistive loads include electric heaters, incandescent light bulbs, and toasters, all of which exhibit this predictable and stable power consumption under normal operating conditions.

In contrast, inductive and capacitive loads are subject to changes in power factor and typically do not maintain constant power consumption, as their current and phase relationship with voltage can vary depending on their operating conditions. A dynamic load refers to systems whose power draw can vary significantly over time, making it an even less stable representation of power draw.