The capacitor voltage always leads the current by 90°.

In the complex plane, the number 14 - j5 is located in the Fourth quadrant

The resistor voltage is always out of phase with the current.

When the frequency of the voltage applied to a series RC circuit is increased, the phase angle

A 47 Ω resistor and a capacitor with 150 Ω of capacitive reactance are in series across an ac source. The impedance, expressed in rectangular form, is

Complex numbers can be added and subtracted but not multiplied or divided.

A 12 kΩ resistor is in series with a 0.02 µF capacitor across a 1.2 kHz ac source. If the current is expressed in polar form as I = 0.3 ∠0° mA, what is the source voltage expressed in polar form?

An imaginary number is one that exists only in the mind of the mathematician.

For a certain load, the true power is 150 W and the reactive power is 125 VAR. The apparent power is

Positive numbers can be represented by points to the right of the origin on the horizontal axis of a graph.

Point +4 on the complex plane is

The impedance of a series RC circuit varies directly with frequency.

When the frequency of the voltage applied to a series RC circuit is decreased, the impedance

Total current in an RC circuit always leads the source voltage.

The complex number 40 ∠ 55° is equivalent to

A 120 Ω resistor is in parallel with a capacitor with a capacitive reactance of 40 Ω. Both components are across a 12 V ac source. What is the magnitude of the total impedance?

A 2 kΩ resistor and a 0.002 µF capacitor are in series across an ac source. Current in the circuit is 6.50 mA. The true power is