They are more stable than direct currents.

They require less maintenance.

They allow for voltage changes, aiding long-distance transmission.

They are easier to generate.

The average current over time.

The maximum or minimum current value.

The current at the start of the cycle.

The current when the voltage is zero.

By taking the square root of the average current.

By averaging the current over time.

By squaring the current, averaging it, and then taking the square root.

By dividing the peak current by two.

To increase the current flow.

To store electrical energy.

To reduce voltage drops.

To oppose changes in current.

The inductor generates its own current.

The current immediately stops.

The voltage increases.

The resistance decreases.

Current leads voltage by 90 degrees.

Current is in phase with voltage.

Current lags voltage by 90 degrees.

Current and voltage are always equal.

Current and voltage are always opposite.

Current leads voltage by 90 degrees.

Current is in phase with voltage.

Current lags voltage by 90 degrees.

Inductor

Capacitor

Resistor

All components equally

Current remains constant.

Current lags voltage by 90 degrees.

Current stops flowing.

Current leads voltage by 90 degrees.

Inductors cause current to lag voltage.

Inductors have no effect on phase.

Inductors cause current to lead voltage.

Inductors increase the circuit's resistance.