SUB-ELEMENT A

Question 1

The product of the readings of an AC voltmeter and AC ammeter is called:
A. Apparent power.
B. True power.
C. Power factor.
D. Current power.

Answer 1

A

Question 2

What is the basic unit of electrical power?
A. Ohm.
B. Watt.
C. Volt.
D. Ampere.

Answer 2

B

Question 3

What is the term used to express the amount of electrical energy stored in an electrostatic field?
A. Joules.
B. Coulombs.
C. Watts.
D. Volts.

Answer 3

A

Question 4

What device is used to store electrical energy in an electrostatic field?
A. Battery.
B. Transformer.
C. Capacitor.
D. Inductor.

Answer 4

C

Question 5

What formula would determine the inductive reactance of a coil if frequency and coil inductance are known?
A. XL = πf L
B. XL = 2πf L
C. XL = 1 / 2f C
D. XL = 1 / R2+X2

Answer 5

B

Question 6

What is the term for the out-of-phase power associated with inductors and capacitors?
A. Effective power.
B. True power.
C. Peak envelope power.
D. Reactive power.

Answer 6

D

Question 7

What determines the strength of the magnetic field around a conductor?
A. The resistance divided by the current.
B. The ratio of the current to the resistance.
C. The diameter of the conductor.
D. The amount of current.

Answer 7

D

Question 8

What will produce a magnetic field?
A. A DC source not connected to a circuit.
B. The presence of a voltage across a capacitor.
C. A current flowing through a conductor.
D. The force that drives current through a resistor.

Answer 8

C

Question 9

When induced currents produce expanding magnetic fields around conductors in a direction that opposes the original magnetic field, this is known as:
A. Lenz’s law.
B. Gilbert’s law.
C. Maxwell’s law.
D. Norton’s law.

Answer 9

A

Question 10

The opposition to the creation of magnetic lines of force in a magnetic circuit is known as:
A. Eddy currents.
B. Hysteresis.
C. Permeability.
D. Reluctance.

Answer 10

D

Question 11

What is meant by the term “back EMF”?
A. A current equal to the applied EMF.
B. An opposing EMF equal to R times C (RC) percent of the applied EMF.
C. A voltage that opposes the applied EMF.
D. A current that opposes the applied EMF.

Answer 11

C

Question 12

Permeability is defined as:
A. The magnetic field created by a conductor wound on a laminated core and carrying current.
B. The ratio of magnetic flux density in a substance to the magnetizing force that produces it.
C. Polarized molecular alignment in a ferromagnetic material while under the influence of a magnetizing force.
D. None of these.

Answer 12

B

Question 13

What metal is usually employed as a sacrificial anode for corrosion control purposes?
A. Platinum bushing.
B. Lead bar.
C. Zinc bar.
D. Brass rod.

Answer 13

C

Question 14

What is the relative dielectric constant for air?
A. 1
B. 2
C. 4
D. 0

Answer 14

A

Question 15

Which metal object may be least affected by galvanic corrosion when submerged in seawater?
A. Aluminum outdrive.
B. Bronze through-hull.
C. Exposed lead keel.
D. Stainless steel propeller shaft.

Answer 15

D

Question 16

Skin effect is the phenomenon where:
A. RF current flows in a thin layer of the conductor, closer to the surface, as frequency increases.
B. RF current flows in a thin layer of the conductor, closer to the surface, as frequency decreases.
C. Thermal effects on the surface of the conductor increase the impedance.
D. Thermal effects on the surface of the conductor decrease the impedance.

Answer 16

A

Question 17

Corrosion resulting from electric current flow between dissimilar metals is called:
A. Electrolysis.
B. Stray current corrosion.
C. Oxygen starvation corrosion.
D. Galvanic corrosion.

Answer 17

D

Question 18

Which of these will be most useful for insulation at UHF frequencies?
A. Rubber.
B. Mica.
C. Wax impregnated paper.
D. Lead.

Answer 18

B

Question 19

What formula would calculate the total inductance of inductors in series?

A. LT = L1 / L2
B. LT = L1 + L2
C. LT = 1 / L1 + L2
D. LT = 1 / L1 x L2

Answer 19

B

Question 20

Good conductors with minimum resistance have what type of electrons?
A. Few free electrons.
B. No electrons.
C. Some free electrons.
D. Many free electrons.

Answer 20

D

Question 21

Which of the 4 groups of metals listed below are the best low-resistance conductors?
A. Gold, silver, and copper.
B. Stainless steel, bronze, and lead.
C. Iron, lead, and nickel.
D. Bronze, zinc, and manganese.

Answer 21

A

Question 22

What is the purpose of a bypass capacitor?
A. It increases the resonant frequency of the circuit.
B. It removes direct current from the circuit by shunting DC to ground.
C. It removes alternating current by providing a low impedance path to ground.
D. It forms part of an impedance transforming circuit.

Answer 22

C

Question 23

How would you calculate the total capacitance of three capacitors in parallel?
A. CT = C1 + C2 / C1 - C2 + C3.
B. CT = C1 + C2 + C3.
C. CT = C1 + C2 / C1 x C2 + C3.
D. CT = 1 / C1+1 / C2 + 1 / C3.

Answer 23

B

Question 24

How might you reduce the inductance of an antenna coil?
A. Add additional turns.
B. Add more core permeability.
C. Reduce the number of turns.
D. Compress the coil turns.

Answer 24

C

Question 25

What are the two most commonly-used specifications for a junction diode?
A. Maximum forward current and capacitance.
B. Maximum reverse current and PIV (peak inverse voltage).
C. Maximum reverse current and capacitance.
D. Maximum forward current and PIV (peak inverse voltage).

Answer 25

D

Question 26

What limits the maximum forward current in a junction diode?
A. The peak inverse voltage (PIV).
B. The junction temperature.
C. The forward voltage.
D. The back EMF.

Answer 26

B

Question 27

MOSFETs are manufactured with THIS protective device built into their gate to protect the device from static charges and excessive voltages:
A. Schottky diode.
B. Metal oxide varistor (MOV).
C. Zener diode.
D. Tunnel diode.

Answer 27

C

Question 28

What are the two basic types of junction field-effect transistors?
A. N-channel and P-channel.
B. High power and low power.
C. MOSFET and GaAsFET.
D. Silicon FET and germanium FET.

Answer 28

A

Question 29

A common emitter amplifier has:
A. Lower input impedance than a common base.
B. More voltage gain than a common collector.
C. Less current gain than a common base.
D. Less voltage gain than a common collector.

Answer 29

B

Question 30

How does the input impedance of a field-effect transistor compare with that of a bipolar transistor?
A. An FET has high input impedance; a bipolar transistor has low input impedance.
B. One cannot compare input impedance without first knowing the supply voltage.
C. An FET has low input impedance; a bipolar transistor has high input impedance.
D. The input impedance of FETs and bipolar transistors is the same.

Answer 30

A

Question 31

An AC ammeter indicates:
A. Effective (TRM) values of current.
B. Effective (RMS) values of current.
C. Peak values of current.
D. Average values of current.

Answer 31

B

Question 32

By what factor must the voltage of an AC circuit, as indicated on the scale of an AC voltmeter, be multiplied to obtain the peak voltage value?
A. 0.707
B. 0.9
C. 1.414
D. 3.14

Answer 32

C

Question 33

What is the RMS voltage at a common household electrical power outlet?
A. 331-V AC.
B. 82.7-V AC.
C. 165.5-V AC.
D. 117-V AC.

Answer 33

D

Question 34

What is the easiest voltage amplitude to measure by viewing a pure sine wave signal on an oscilloscope?
A. Peak-to-peak.
B. RMS.
C. Average.
D. DC.

Answer 34

A

Question 35

By what factor must the voltage measured in an AC circuit, as indicated on the scale of an AC voltmeter, be multiplied to obtain the average voltage value?
A. 0.707
B. 1.414
C. 0.9
D. 3.14

Answer 35

C

Question 36

What is the peak voltage at a common household electrical outlet?
A. 234 volts.
B. 117 volts.
C. 331 volts.
D. 165.5 volts.

Answer 36

D

Question 37

What is a sine wave?
A. A constant-voltage, varying-current wave.
B. A wave whose amplitude at any given instant can be represented by the projection of a point on a wheel rotating at a uniform speed.
C. A wave following the laws of the trigonometric tangent function.
D. A wave whose polarity changes in a random manner.

Answer 37

B

Question 38

How many degrees are there in one complete sine wave cycle?
A. 90 degrees.
B. 270 degrees.
C. 180 degrees.
D. 360 degrees.

Answer 38

D

Question 39

What type of wave is made up of sine waves of the fundamental frequency and all the odd harmonics?
A. Square.
B. Sine.
C. Cosine.
D. Tangent.

Answer 39

A

Question 40

What is the description of a square wave?
A. A wave with only 300 degrees in one cycle.
B. A wave whose periodic function is always negative.
C. A wave whose periodic function is always positive.
D. A wave that abruptly changes back and forth between two voltage levels and stays at these levels for equal amounts of time.

Answer 40

D

Question 41

What type of wave is made up of sine waves at the fundamental frequency and all the harmonics?
A. Sawtooth wave.
B. Square wave.
C. Sine wave.
D. Cosine wave.

Answer 41

A

Question 42

What type of wave is characterized by a rise time significantly faster than the fall time (or vice versa)?
A. Cosine wave.
B. Square wave.
C. Sawtooth wave.
D. Sine wave.

Answer 42

C

Question 43

What is the term used to identify an AC voltage that would cause the same heating in a resistor as a corresponding value of DC voltage?
A. Cosine voltage.
B. Power factor.
C. Root mean square (RMS).
D. Average voltage.

Answer 43

C

Question 44

What happens to reactive power in a circuit that has both inductors and capacitors?
A. It is dissipated as heat in the circuit.
B. It alternates between magnetic and electric fields and is not dissipated.
C. It is dissipated as inductive and capacitive fields.
D. It is dissipated as kinetic energy within the circuit.

Answer 44

B

Question 45

Halving the cross-sectional area of a conductor will:
A. Not affect the resistance.
B. Quarter the resistance.
C. Double the resistance.
D. Halve the resistance.

Answer 45

C

Question 46

Which of the following groups is correct for listing common materials in order of descending conductivity?
A. Silver, copper, aluminum, iron, and lead.
B. Lead, iron, silver, aluminum, and copper.
C. Iron, silver, aluminum, copper, and silver.
D. Silver, aluminum, iron, lead, and copper.

Answer 46

A

Question 47

How do you compute true power (power dissipated in the circuit) in a circuit where AC voltage and current are out of phase?
A. Multiply RMS voltage times RMS current.
B. Subtract apparent power from the power factor.
C. Divide apparent power by the power factor.
D. Multiply apparent power times the power factor.

Answer 47

D

Question 48

Assuming a power source to have a fixed value of internal resistance, maximum power will be transferred to the load when:
A. The load impedance is greater than the source impedance.
B. The load impedance equals the internal impedance of the source.
C. The load impedance is less than the source impedance.
D. The fixed values of internal impedance are not relative to the power source.

Answer 48

B