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

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1. - E0A03

Over what range of frequencies are the FCC human body RF exposure limits most restrictive?

SelectAnswer
A3 to 30 MHz
B30 to 300 MHz
C300 to 3000 MHz
D300 kHz to 3 MHz

2. - E1A11

Which of the following describes authorization or licensing required when operating an amateur station aboard a U.S.-registered vessel in international waters?

SelectAnswer
AAn unrestricted Radiotelephone Operator Permit
BAny amateur license with an FCC Marine or Aircraft endorsement
COnly General Class or higher amateur licenses
DAny FCC-issued amateur license

3. - E1B10

What frequencies are authorized to an amateur station operating under RACES rules?

SelectAnswer
AAll amateur service frequencies authorized to the control operator
BSpecific local government channels
CSpecific segments in the amateur service MF, HF, VHF and UHF bands
DMilitary Auxiliary Radio System (MARS) channels

4. - E1C10

What is the permitted mean power of any spurious emission relative to the mean power of the fundamental emission from a station transmitter or external RF amplifier installed after January 1, 2003 and transmitting on a frequency below 30 MHz?

SelectAnswer
AAt least 63 dB below
BAt least 43 dB below
CAt least 53 dB below
DAt least 73 dB below

5. - E1D11

Which amateur stations are eligible to operate as Earth stations?

SelectAnswer
AOnly those of General, Advanced or Amateur Extra Class operators
BAny amateur station whose licensee has filed a pre-space notification with the FCC's International Bureau
CAny amateur station, subject to the privileges of the class of operator license held by the control operator
DOnly those of Amateur Extra Class operators

6. - E1E09

What may be the penalty for a VE who fraudulently administers or certifies an examination?

SelectAnswer
AAll these choices are correct
BA sentence of up to one year in prison
CA fine of up to $1000 per occurrence
DRevocation of the VE's amateur station license grant and the suspension of the VE's amateur operator license grant

7. - E1F08

Which of the following types of amateur station communications are prohibited?

SelectAnswer
ACommunications that have political content, except as allowed by the Fairness Doctrine
BCommunications in a language other than English
CCommunications that have religious content
DCommunications transmitted for hire or material compensation, except as otherwise provided in the rules

8. - E2A07

Which of the following types of signals can be relayed through a linear transponder?

SelectAnswer
AFM and CW
BPSK and packet
CSSB and SSTV
DAll these choices are correct

9. - E2B05

Which of the following describes the use of vestigial sideband in analog fast-scan TV transmissions?

SelectAnswer
AVestigial sideband provides high frequency emphasis to sharpen the picture
BThe vestigial sideband carries the audio information
CThe vestigial sideband contains chroma information
DVestigial sideband reduces bandwidth while allowing for simple video detector circuitry

10. - E2C12

What technique do individual nodes use to form a mesh network?

SelectAnswer
AActing as store-and-forward digipeaters
BForward error correction and Viterbi codes
CCustom code plugs for the local trunking systems
DDiscovery and link establishment protocols

11. - E2D01

Which of the following digital modes is designed for meteor scatter communications?

SelectAnswer
AAPRS
BMSK144
CHellschreiber
DWSPR

12. - E2E04

What is indicated when one of the ellipses in an FSK crossed-ellipse display suddenly disappears?

SelectAnswer
AThe receiver has drifted 5 kHz from the desired receive frequency
BSelective fading has occurred
COne of the signal filters is saturated
DThe mark and space signal have been inverted

13. - E3A09

Which of the following frequency ranges is most suited for meteor scatter communications?

SelectAnswer
A1.8 MHz - 1.9 MHz
B10 MHz - 14 MHz
C28 MHz - 148 MHz
D220 MHz - 450 MHz

14. - E3B02

What is the approximate maximum range for signals using transequatorial propagation?

SelectAnswer
A7500 miles
B5000 miles
C1000 miles
D2500 miles

15. - E3C11

What does VOACAP software model?

SelectAnswer
AAC current and impedance
BAC voltage and impedance
CVHF radio propagation
DHF propagation

16. - E4A02

Which of the following parameters does a spectrum analyzer display on the vertical and horizontal axes?

SelectAnswer
ASWR and frequency
BRF amplitude and time
CSWR and time
DRF amplitude and frequency

17. - E4B10

Which of the following methods measures intermodulation distortion in an SSB transmitter?

SelectAnswer
AModulate the transmitter using two AF signals having non-harmonically related frequencies and observe the RF output with a spectrum analyzer
BModulate the transmitter using two AF signals having harmonically related frequencies and observe the RF output with a peak reading wattmeter
CModulate the transmitter using two RF signals having harmonically related frequencies and observe the RF output with a logic analyzer
DModulate the transmitter using two RF signals having non-harmonically related frequencies and observe the RF output with a spectrum analyzer

18. - E4C04

What is the noise figure of a receiver?

SelectAnswer
AThe ratio of thermal noise to atmospheric noise
BThe ratio of atmospheric noise to phase noise
CThe ratio in dB of the noise generated by the receiver to the theoretical minimum noise
DThe ratio of the noise bandwidth in hertz to the theoretical bandwidth of a resistive network

19. - E4D03

How can intermodulation interference between two repeaters occur?

SelectAnswer
AWhen the signals from the transmitters are reflected out of phase from airplanes passing overhead
BWhen the signals from the transmitters are reflected in phase from airplanes passing overhead
CWhen the repeaters are in close proximity and the signals mix in the final amplifier of one or both transmitters
DWhen the repeaters are in close proximity and the signals cause feedback in the final amplifier of one or both transmitters

20. - E4E05

How can radio frequency interference from an AC motor be suppressed?

SelectAnswer
ABy installing a high-pass filter in series with the motor's power leads
BBy using a ground-fault current interrupter in the circuit used to power the motor
CBy installing a bypass capacitor in series with the motor leads
DBy installing a brute-force AC-line filter in series with the motor leads

21. - E5A04

What is the magnitude of the impedance of a parallel RLC circuit at resonance?

SelectAnswer
ALow compared to the circuit resistance
BHigh compared to the circuit resistance
CApproximately equal to inductive reactance
DApproximately equal to circuit resistance

22. - E5B02

What letter is commonly used to represent susceptance?

SelectAnswer
AB
BX
CY
DG

23. - E5C10

Which point on Figure E5-1 best represents the impedance of a series circuit consisting of a 400-ohm resistor and a 38-picofarad capacitor at 14 MHz?

SelectAnswer
APoint 6
BPoint 5
CPoint 4
DPoint 2

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. - E6A06

What is the beta of a bipolar junction transistor?

SelectAnswer
AThe frequency at which the current gain is reduced to 0.707
BThe change in collector current with respect to base current
CThe switching speed
DThe breakdown voltage of the base to collector junction

26. - E6B10

In Figure E6-2, what is the schematic symbol for a light-emitting diode?

SelectAnswer
A1
B5
C6
D7

27. - E6C03

What is tri-state logic?

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

28. - E6D11

Which type of core material decreases inductance when inserted into a coil?

SelectAnswer
ABrass
BCeramic
CFerrite
DPowdered iron

29. - E6E08

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

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

30. - E6F04

What is the photovoltaic effect?

SelectAnswer
AThe conversion of electrical energy to mechanical energy
BThe conversion of voltage to current when exposed to light
CThe tendency of a battery to discharge when exposed to light
DThe conversion of light to electrical energy

31. - E7A04

How many flip-flops are required to divide a signal frequency by 4?

SelectAnswer
A8
B4
C1
D2

32. - E7B05

What can be done to prevent unwanted oscillations in an RF power amplifier?

SelectAnswer
AUse a phase inverter in the output filter
BTune the stage for maximum SWR
CTune both the input and output for maximum power
DInstall parasitic suppressors and/or neutralize the stage

33. - E7C04

How does an impedance-matching circuit transform a complex impedance to a resistive impedance?

SelectAnswer
AIt introduces transconductance to cancel the reactive part of impedance
BReactive currents are dissipated in matched resistances
CIt introduces negative resistance to cancel the resistive part of impedance
DIt cancels the reactive part of the impedance and changes the resistive part to a desired value

34. - E7D07

What is the purpose of C2 in the circuit shown in Figure E7-2?

SelectAnswer
ATo self-resonate at the hum frequency
BIt is a brute force filter for the output
CTo provide fixed DC bias for Q1
DIt bypasses rectifier output ripple around D1

35. - E7E08

What are the principal frequencies that appear at the output of a mixer circuit?

SelectAnswer
A1.414 and 0.707 times the input frequency
BThe square root of the product of input frequencies
CTwo and four times the original frequency
DThe two input frequencies along with their sum and difference frequencies

36. - E7F11

What sets the minimum detectable signal level for a direct-sampling SDR receiver in the absence of atmospheric or thermal noise?

SelectAnswer
AReference voltage level and sample width in bits
BSample clock phase noise
CMissing codes and jitter
DData storage transfer rate

37. - E7G08

How does the gain of an ideal operational amplifier vary with frequency?

SelectAnswer
AIt decreases logarithmically with increasing frequency
BIt decreases linearly with increasing frequency
CIt does not vary with frequency
DIt increases linearly with increasing frequency

38. - E7H04

How is positive feedback supplied in a Colpitts oscillator?

SelectAnswer
AThrough a neutralizing capacitor
BThrough a tapped coil
CThrough link coupling
DThrough a capacitive divider

39. - E8A08

Why would a direct or flash conversion analog-to-digital converter be useful for a software defined radio?

SelectAnswer
AAll these choices are correct
BVery low power consumption decreases frequency drift
CVery high speed allows digitizing high frequencies
DImmunity to out-of-sequence coding reduces spurious responses

40. - E8B10

What is frequency division multiplexing?

SelectAnswer
ATwo or more information streams are merged into a digital combiner, which then pulse position modulates the transmitter
BThe transmitted signal jumps from band to band at a predetermined rate
CThe transmitted signal is divided into packets of information
DTwo or more information streams are merged into a baseband, which then modulates the transmitter

41. - E8C04

What technique minimizes the bandwidth of a PSK31 signal?

SelectAnswer
AReed-Solomon character encoding
BUse of sinusoidal data pulses
CUse of trapezoidal data pulses
DZero-sum character encoding

42. - E8D02

What spread spectrum communications technique uses a high-speed binary bit stream to shift the phase of an RF carrier?

SelectAnswer
APhase compandored spread spectrum
BDirect sequence
CFrequency hopping
DBinary phase-shift keying

43. - E9A13

What term describes station output, taking into account all gains and losses?

SelectAnswer
APower factor
BHalf-power bandwidth
CApparent power
DEffective radiated power

44. - E9B05

What type of antenna pattern is shown in Figure E9-2?

SelectAnswer
AAzimuth
BRadiation resistance
CPolarization
DElevation

45. - E9C06

What is the effect of adding a terminating resistor to a rhombic antenna?

SelectAnswer
AIt changes the radiation pattern from horizontal to vertical polarization
BIt decreases the ground loss
CIt changes the radiation pattern from bidirectional to unidirectional
DIt reflects the standing waves on the antenna elements back to the transmitter

46. - E9D06

What happens to the SWR bandwidth when one or more loading coils are used to resonate an electrically short antenna?

SelectAnswer
AIt is unchanged if the loading coil is located at a voltage maximum point
BIt is unchanged if the loading coil is located at the feed point
CIt is increased
DIt is decreased

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 divides the operating frequency of a transmitter signal so it can be used on a lower frequency band
DIt is used to feed low-impedance loads from a high-impedance source

48. - E9F07

How does ladder line compare to small-diameter coaxial cable such as RG-58 at 50 MHz?

SelectAnswer
ALower loss
BSmaller reflection coefficient
CHigher SWR
DLower velocity factor

49. - E9G05

Which of the following is a common use for a Smith chart?

SelectAnswer
ADetermine the loss/100 feet of a transmission line, given the velocity factor and conductor materials
BDetermine the gain of an antenna given the physical and electrical parameters
CDetermine the length and position of an impedance matching stub
DDetermine the impedance of a transmission line, given the physical dimensions

50. - E9H02

Which is generally true for low band (160 meter and 80 meter) receiving antennas?

SelectAnswer
AAtmospheric noise is so high that gain over a dipole is not important
BAll these choices are correct
CThey must be erected at least 1/2 wavelength above the ground to attain good directivity
DLow loss coax transmission line is essential for good performance

Figure E5-1

Figure E6-2

Figure E7-2

Figure E9-2