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US Amateur Radio - Amateur Extra (Element 4, 2020-2024) Practice Test

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1. - E0A08

What does SAR measure?

SelectAnswer
ASynthetic Aperture Ratio of the human body
BThe rate of RF energy reflected from stationary terrain
CSignal Amplification Rating
DThe rate at which RF energy is absorbed by the body

2. - E1A06

Where must the carrier frequency of a CW signal be set to comply with FCC rules for 60 meter operation?

SelectAnswer
AOn any frequency where the signal's sidebands are within the channel
BAt the lowest frequency of the channel
CAt the highest frequency of the channel
DAt the center frequency of the channel

3. - E1B09

Which amateur stations may be operated under RACES rules?

SelectAnswer
AAny FCC-licensed amateur station participating in the Military Auxiliary Radio System (MARS)
BOnly those club stations licensed to Amateur Extra Class operators
CAny FCC-licensed amateur station certified by the responsible civil defense organization for the area served
DAny FCC-licensed amateur station except a Technician Class

4. - E1C07

At what level below a signal's mean power level is its bandwidth determined according to FCC rules?

SelectAnswer
A6 dB
B26 dB
C3 dB
D23 dB

5. - E1D07

Which HF amateur bands have frequencies authorized for space stations?

SelectAnswer
AOnly the 40, 20, 17, 15, 12, and 10 meter bands
BOnly the 40, 20, 17, 15, and 10 meter bands
COnly the 40, 30, 20, 15, 12, and 10 meter bands
DAll HF bands

6. - E1E03

What is a Volunteer Examiner Coordinator?

SelectAnswer
AAn organization that has entered into an agreement with the FCC to coordinate, prepare, and administer amateur operator license examinations
BA person who has volunteered to prepare amateur operator license examinations
CA person who has volunteered to administer amateur operator license examinations
DThe person who has entered into an agreement with the FCC to be the VE session manager

7. - E1F09

Which of the following conditions apply when transmitting spread spectrum emissions?

SelectAnswer
AThe transmission must not be used to obscure the meaning of any communication
BAll these choices are correct
CA station transmitting SS emission must not cause harmful interference to other stations employing other authorized emissions
DThe transmitting station must be in an area regulated by the FCC or in a country that permits SS emissions

8. - E2A13

Which of the following techniques is normally used by low Earth orbiting digital satellites to relay messages around the world?

SelectAnswer
AMulti-satellite relaying
BDigipeating
CStore-and-forward
DNode hopping

9. - E2B10

What aspect of an analog slow-scan television signal encodes the brightness of the picture?

SelectAnswer
ATone amplitude
BTone frequency
CSync amplitude
DSync frequency

10. - E2C05

What is the function of a DX QSL Manager?

SelectAnswer
ATo allocate frequencies for DXpeditions
BTo relay calls to and from a DX station
CTo handle the receiving and sending of confirmation cards for a DX station
DTo run a net to allow many stations to contact a rare DX station

11. - E2D07

What digital protocol is used by APRS?

SelectAnswer
AAX.25
BAMTOR
C802.11
DPACTOR

12. - E2E11

What is the difference between direct FSK and audio FSK?

SelectAnswer
AOnly direct FSK can be decoded by computer
BDirect FSK can transmit faster baud rates
CDirect FSK occupies less bandwidth
DDirect FSK applies the data signal to the transmitter VFO, while AFSK transmits tones via phone

13. - E3A13

Which of these emission modes is best for auroral propagation?

SelectAnswer
AFM
BSSB
CRTTY
DCW

14. - E3B09

At what time of year is sporadic E propagation most likely to occur?

SelectAnswer
AAround the solstices, especially the winter solstice
BAround the equinoxes, especially the fall equinox
CAround the equinoxes, especially the spring equinox
DAround the solstices, especially the summer solstice

15. - E3C02

What is indicated by a rising A or K index?

SelectAnswer
AIncreasing disruption of the geomagnetic field
BDecreasing disruption of the geomagnetic field
CAn increase in the critical frequency
DHigher levels of solar UV radiation

16. - E4A08

Which of the following measures SWR?

SelectAnswer
AAn antenna analyzer
BAn ohmmeter
CA spectrum analyzer
DA Q meter

17. - E4B05

What three test loads are used to calibrate an RF vector network analyzer?

SelectAnswer
A50 ohms, 75 ohms, and 90 ohms
BShort circuit, open circuit, and resonant circuit
C50 ohms through 1/8 wavelength, 1/4 wavelength, and 1/2 wavelength of coaxial cable
DShort circuit, open circuit, and 50 ohms

18. - E4C14

What transmit frequency might generate an image response signal in a receiver tuned to 14.300 MHz and that uses a 455 kHz IF frequency?

SelectAnswer
A15.210 MHz
B13.845 MHz
C14.445 MHz
D14.755 MHz

19. - E4D04

Which of the following may reduce or eliminate intermodulation interference in a repeater caused by another transmitter operating in close proximity?

SelectAnswer
AUtilizing a Class D final amplifier
BUtilizing a Class C final amplifier
CA band-pass filter in the feed line between the transmitter and receiver
DA properly terminated circulator at the output of the repeater's transmitter

20. - E4E11

What could cause local AM broadcast band signals to combine to generate spurious signals in the MF or HF bands?

SelectAnswer
ANearby corroded metal joints are mixing and re-radiating the broadcast signals
BOne or more of the broadcast stations is transmitting an over-modulated signal
CYour station receiver IF amplifier stage is defective
DYou are receiving skywave signals from a distant station

21. - E5A06

What is the magnitude of the circulating current within the components of a parallel LC circuit at resonance?

SelectAnswer
AIt is at a maximum
BIt is at a minimum
CIt equals 1 divided by the quantity 2 times pi, multiplied by the square root of inductance L multiplied by capacitance C
DIt equals 2 multiplied by pi, multiplied by frequency, multiplied by inductance

22. - E5B07

What is the phase angle between the voltage across and the current through a series RLC circuit if XC is 500 ohms, R is 1 kilohm, and XL is 250 ohms?

SelectAnswer
A14.0 degrees with the voltage lagging the current
B68.2 degrees with the voltage lagging the current
C68.2 degrees with the voltage leading the current
D14.0 degrees with the voltage leading the current

23. - E5C09

When using rectangular coordinates to graph the impedance of a circuit, what do the axes represent?

SelectAnswer
AThe X axis represents the resistive component and the Y axis represents the reactive component
BThe X axis represents the magnitude and the Y axis represents the phase angle
CThe X axis represents the reactive component and the Y axis represents the resistive component
DThe X axis represents the phase angle and the Y axis represents the magnitude

24. - E5D13

How many watts are consumed in a circuit consisting of a 100-ohm resistor in series with a 100-ohm inductive reactance drawing 1 ampere?

SelectAnswer
A70.7 watts
B200 watts
C100 watts
D141.4 watts

25. - E6A11

In Figure E6-1, what is the schematic symbol for a P-channel junction FET?

SelectAnswer
A3
B1
C6
D2

26. - E6B06

Which of the following is a common use of a Schottky diode?

SelectAnswer
AAs a VHF/UHF mixer or detector
BAs a rectifier in high current power supplies
CAs a variable capacitance in an automatic frequency control circuit
DAs a constant voltage reference in a power supply

27. - E6C03

What is tri-state logic?

SelectAnswer
ALogic devices that utilize ternary math
BProprietary logic devices manufactured by Tri-State Devices
CLogic devices with 0, 1, and high-impedance output states
DLow-power logic devices designed to operate at 3 volts

28. - E6D02

What is the equivalent circuit of a quartz crystal?

SelectAnswer
AMotional capacitance, motional inductance, loss resistance, and a capacitor representing electrode and stray capacitance all in parallel
BMotional inductance and loss resistance in series, paralleled with motional capacitance and a capacitor representing electrode and stray capacitance
CMotional capacitance, motional inductance, loss resistance, and a capacitor representing electrode and stray capacitance all in series
DMotional capacitance, motional inductance, and loss resistance in series, all in parallel with a shunt capacitor representing electrode and stray capacitance

29. - E6E08

How is power supplied to the most common type of MMIC?

SelectAnswer
AThrough a resistor and/or RF choke connected to the amplifier output lead
BDirectly to the bias voltage (VCC IN) lead
CThrough a capacitor and RF choke connected to the amplifier input lead
DMMICs require no operating bias

30. - E6F02

What happens to the conductivity of a photoconductive material when light shines on it?

SelectAnswer
AIt decreases
BIt becomes unstable
CIt increases
DIt stays the same

31. - E7A03

Which of the following can divide the frequency of a pulse train by 2?

SelectAnswer
AAn XOR gate
BA flip-flop
CA multiplexer
DAn OR gate

32. - E7B08

How can an RF power amplifier be neutralized?

SelectAnswer
ABy reducing the driving power
BBy increasing the driving power
CBy feeding an in-phase component of the output back to the input
DBy feeding a 180-degree out-of-phase portion of the output back to the input

33. - E7C02

Which of the following is a property of a T-network with series capacitors and a parallel shunt inductor?

SelectAnswer
AIt is a band-pass filter
BIt is a notch filter
CIt is a high-pass filter
DIt is a low-pass filter

34. - E7D01

How does a linear electronic voltage regulator work?

SelectAnswer
AThe control element duty cycle is proportional to the line or load conditions
BIt eliminates the need for a pass transistor
CIt has a ramp voltage as its output
DThe conduction of a control element is varied to maintain a constant output voltage

35. - E7E06

Why is de-emphasis commonly used in FM communications receivers?

SelectAnswer
ATo remove third-order distortion products
BFor compatibility with transmitters using phase modulation
CFor higher efficiency
DTo reduce impulse noise reception

36. - E7F06

What is the minimum number of bits required for an analog-to-digital converter to sample a signal with a range of 1 volt at a resolution of 1 millivolt?

SelectAnswer
A4 bits
B10 bits
C6 bits
D8 bits

37. - E7G09

What will be the output voltage of the circuit shown in Figure E7-3 if R1 is 1000 ohms, RF is 10,000 ohms, and 0.23 volts DC is applied to the input?

SelectAnswer
A-0.23 volts
B2.3 volts
C0.23 volts
D-2.3 volts

38. - E7H06

Which of the following oscillator circuits are commonly used in VFOs?

SelectAnswer
AColpitts and Hartley
BArmstrong and deForest
CNegative feedback and balanced feedback
DPierce and Zener

39. - E8A02

Which of the following is a type of analog-to-digital conversion?

SelectAnswer
ASuccessive approximation
BLevel shifting
CPhase reversal
DHarmonic regeneration

40. - E8B03

What is the modulation index of an FM-phone signal having a maximum frequency deviation of 3000 Hz either side of the carrier frequency when the modulating frequency is 1000 Hz?

SelectAnswer
A3
B1000
C0.3
D3000

41. - E8C05

What is the approximate bandwidth of a 13-WPM International Morse Code transmission?

SelectAnswer
A13 Hz
B26 Hz
C52 Hz
D104 Hz

42. - E8D03

How does the spread spectrum technique of frequency hopping work?

SelectAnswer
AIf interference is detected by the receiver it will signal the transmitter to wait until the frequency is clear
BIf interference is detected by the receiver it will signal the transmitter to change frequencies
CThe frequency of the transmitted signal is changed very rapidly according to a pseudorandom sequence also used by the receiving station
DA binary bit stream is used to shift the phase of an RF carrier very rapidly in a pseudorandom sequence

43. - E9A10

Which of the following improves the efficiency of a ground-mounted quarter-wave vertical antenna?

SelectAnswer
AShortening the radiating element
BInstalling a radial system
CIsolating the coax shield from ground
DAll these choices are correct

44. - E9B07

How does the total amount of radiation emitted by a directional gain antenna compare with the total amount of radiation emitted from a theoretical isotropic antenna, assuming each is driven by the same amount of power?

SelectAnswer
AThe radiation from the isotropic antenna is 2.15 dB stronger than that from the directional antenna
BThe total amount of radiation from the directional antenna is stronger by its front-to-back ratio
CThe total amount of radiation from the directional antenna is increased by the gain of the antenna
DThey are the same

45. - E9C08

What is a folded dipole antenna?

SelectAnswer
AA type of ground-plane antenna
BA half-wave dipole with an additional parallel wire connecting its two ends
CA dipole one-quarter wavelength long
DA dipole configured to provide forward gain

46. - E9D05

What usually occurs if a Yagi antenna is designed solely for maximum forward gain?

SelectAnswer
AThe front-to-back ratio decreases
BThe front-to-back ratio increases
CThe frequency response is widened over the whole frequency band
DThe SWR is reduced

47. - E9E08

What is a use for a Wilkinson divider?

SelectAnswer
AIt is used to feed high-impedance antennas from a low-impedance source
BIt is used to divide power equally between two 50-ohm loads while maintaining 50-ohm input impedance
CIt is used to feed low-impedance loads from a high-impedance source
DIt divides the operating frequency of a transmitter signal so it can be used on a lower frequency band

48. - E9F01

What is the velocity factor of a transmission line?

SelectAnswer
AThe velocity of the wave in the transmission line multiplied by the velocity of light in a vacuum
BThe index of shielding for coaxial cable
CThe ratio of the characteristic impedance of the line to the terminating impedance
DThe velocity of the wave in the transmission line divided by the velocity of light in a vacuum

49. - E9G03

Which of the following is often determined using a Smith chart?

SelectAnswer
ABeam headings and radiation patterns
BImpedance and SWR values in transmission lines
CSatellite azimuth and elevation bearings
DTrigonometric functions

50. - E9H03

What is Receiving Directivity Factor (RDF)?

SelectAnswer
AForward gain compared to the gain in the reverse direction
BRelative directivity compared to a dipole
CRelative directivity compared to isotropic
DForward gain compared to average gain over the entire hemisphere

Figure E6-1

Figure E7-3