Intro to Electronic Circuits Final

¡Supera tus tareas y exámenes ahora con Quizwiz!

A capacitance of 1200 pF is the same as 1.2 microF.

False

Admittance is the reciprocal of susceptance.

False

If a series RL circuit is connected to a DC source, the maximum current is limited by the total inductance.

False

The impedance of a series RLC circuit is dependent on the source voltage.

False

The power factor is equal to the tangent of the phase angle.

False

The reciprocal of impedance is susceptance.

False

The time constant of an RL circuit is given by the formula t = R/L.

False

The total reactance of series capacitors is the product-over-sum of the individual reactance.

False

Voltage leads current in a capacitor.

False

When two capacitors are in parallel with a voltage source, the smaller capacitor will have the larger voltage.

False

A RLC circuit can have a higher voltage than the source voltage across the resistor.

True

Above the resonant frequency, a series resonant circuit will look inductive and current will lag the voltage.

True

The Q of an inductor is dependent on the frequency at which it is measured.

True

The area of the plates of a capacitor is proportional to the capacitence.

True

The total inductance of parallel inductors is always less than that of the smallest inductor.

True

When a capacitor is charging or discharging between two levels, the charge on the capacitor changes by 63% of the difference in one time constant.

True

A high pass series RL filter has the output taken from across the resistor.

False

A parallel resonant band stop filter has minimum impedance at the resonant frequency.

False

A purely resistive circuit has a power factor of 0.

False

Apparent power is measured in watts.

False

Capacitive reactance is proportional to the applied frequency.

False

In a series RC circuit, the impedance increases when the frequency increases.

False

In a series RC lag circuit, the output voltage is taken across the resistor.

False

In an AC parallel RL circuit, the voltage across the inductor is out of phase with the voltage across the resistor.

False

In an AC series RL circuit, the current and voltage are in phase for the inductor.

False

In an parallel RLC circuit the total impedance is always greater than the resistance.

False

Inductive reactance is directly proportional to the frequency.

False

Inductors in parallel combine like resistors in series

False

Kirchhoffs voltage law does not apply to inductive circuits.

False

Lenz's law states that the amount of voltage induced in a coil is proportional to the rate of change of the magnetic field with respect to the coil.

False

The Q of a band pass filter does not affect the bandwidth.

False

The frequency of the power curve of an inductive circuit is equal to the frequency of the applied voltage.

False

high frequency signals pass more easily through inductors than low frequency signals.

False

it is possible to read peak voltage of an AC source with a multimeter

False

A band pass filter can be constructed from an RLC circuit.

True

A capacitor appears as an open to a constant DC.

True

An ideal inductor has no winding resistance.

True

At resonance the current in a parallel resonant circuit is the same in all components.

True

If Xc = R, the phase shift in a series RC circuit is 45° with current leading voltage.

True

In a AC inductive circuit, the current lags the voltage in the inductor.

True

In a parallel RC circuit, as frequency is increased, the conductance is unchanged.

True

The phase angle of an RC circuit is measured between the source voltage and current.

True

The total inductance of two parallel inductors is equal to the product over sum of the individual inductors.

True

The unit of reactive power is the VAR.

True

The unit siemenes is used to measure both susceptance and admittance.

True

The upper and lower cut off frequencies of a band stop filter determine the bandwidth.

True

When two capacitors are in series with a voltage source, the smaller capacitor will have the larger voltage.

True

in an Ac series RL circuit where 3 volts is dropped across the resistor and 4 volts is dropped across the inductor, it follows that the source voltage is 5 volts

True

if two capacitors are placed in parallel, the total capacitance is

the sum of two cap values

the turn ratio of a transformer is related to the actual number of times the wire is wrapped around the transformer core

true

vp, vpp and vrms are all ways of describing the same voltage signal.

true

In an AC circuit where R = XL, the phase angle is 45°

True

the voltage drop across a capacitor does not change when frequency changes.

False

the voltage drop across an inductor in DC circuit is equal to the source

False

If the power factor of a circuit is .5 the reactive power and true power are equal.

True

In an AC parallel RL circuit, the inductive susceptance is always less than the admittance.

True

The impedance of a parallel RC circuit can be found by applying phasor arithmetic to the product over sum rule.

True

if the input voltage on the primary of a transformer increases, the voltage on the secondary

increases

capacitors allow AC current to pass and block DC current

true

the time necessary to fully charge a capacitor is 5t

true

transformers allow AC voltage to pass while blocking DC voltage

true


Conjuntos de estudio relacionados

Pre-Eclampsia Questions/Gestational HTN/Gestational Diabetes

View Set

EXSC 230: Augmented Feedback (4)

View Set

Chapter 12.8: Nervous System: Anatomy and Physiology of the Nervous System: Central Nervous System II: Brain

View Set

Introduction to Management Accounting Revision

View Set

DIC mylab NCLEX questions 16-5.1

View Set

IXL - Choose punctuation to avoid fragments and run-ons.

View Set