Question

If the resistor voltage in a series RL circuit becomes less than the inductor voltage, then what will be the phase angle?
A. Decreases
B. Is not affected
C. Cannot be determined
D. Increases

Answer 1

A resistor–inductor circuit which is abbreviated as RL circuit can be otherwise called RL filter or RL network. This RL network is defined as an electric circuit consisting of resistors and inductors connected by a voltage or current source. A first-order RL circuit consists of one resistor and one inductor. This is the simplest form of RL circuit. This will help you in answering this question.

Complete answer:
Let us consider the circuit here,

Phasor diagram of RL circuit is,

The graph of RL circuit is,

As the inductor voltage gets decreased, the voltage across the resistor will be increased and therefore the current will also be increased. And finally the inductor voltage will be zero, all of the voltage source output will be across the resistor, and the current will be at its maximum value. If the resistor voltage in a series RL circuit becomes less than the inductor voltage, then the phase angle increases. In short if the resistor voltage in a series RL circuit becomes less than the inductor voltage, then the phase angle increases.

This has been mentioned as option D.

Note:
Phase angle is defined as the angle between effective resistance and effective reactance of a circuit. Here the most common value of the phase angle will be zero degrees as the reactive power would be zero. Phase angle is defined as the angle between effective resistance and effective reactance of a circuit. Phase difference can be calculated by an oscilloscope by measuring the time delay between two waveforms along with their time period.