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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
ASignal Amplification Rating
BSynthetic Aperture Ratio of the human body
CThe rate of RF energy reflected from stationary terrain
DThe rate at which RF energy is absorbed by the body

2. - E1A03

What is the maximum legal carrier frequency on the 20 meter band for transmitting USB AFSK digital signals having a 1 kHz bandwidth?

SelectAnswer
A14.349 MHz
B14.100 MHz
C14.149 MHz
D14.070 MHz

3. - E1B10

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

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

4. - E1C02

Which of the following types of communications may be transmitted to amateur stations in foreign countries?

SelectAnswer
ACommunications incidental to the purpose of the amateur service and remarks of a personal nature
BMessages intended for users of the maritime satellite service
CBusiness-related messages for non-profit organizations
DAll these choices are correct

5. - E1D07

Which HF amateur bands have frequencies authorized for space stations?

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

6. - E1E10

What must the administering VEs do after the administration of a successful examination for an amateur operator license?

SelectAnswer
AThey must submit the application document to the coordinating VEC according to the coordinating VEC instructions
BThey must collect and send the documents to the NCVEC for grading
CThey must collect and send the documents to the FCC according to instructions
DThey must collect and submit the documents to the coordinating VEC for grading

7. - E1F04

Which of the following geographic descriptions approximately describes "Line A"?

SelectAnswer
AA line roughly parallel to and north of the border between the U.S. and Mexico
BA line roughly parallel to and south of the border between the U.S. and Canada
CA line roughly parallel to and west of the U.S. Atlantic coastline
DA line roughly parallel to and east of the U.S. Pacific coastline

8. - E2A07

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

SelectAnswer
APSK and packet
BFM and CW
CAll these choices are correct
DSSB and SSTV

9. - E2B07

What is the name of the signal component that carries color information in NTSC video?

SelectAnswer
ALuminance
BSpectral intensity
CChroma
DHue

10. - E2C12

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

SelectAnswer
ADiscovery and link establishment protocols
BForward error correction and Viterbi codes
CActing as store-and-forward digipeaters
DCustom code plugs for the local trunking systems

11. - E2D05

What is one advantage of the JT65 mode?

SelectAnswer
AEasily copied by ear if necessary
BUses only a 65 Hz bandwidth
CPermits fast-scan TV transmissions over narrow bandwidth
DThe ability to decode signals which have a very low signal-to-noise ratio

12. - E2E13

Which of these digital modes has the fastest data throughput under clear communication conditions?

SelectAnswer
APSK31
BAMTOR
C300 baud packet
D170 Hz shift, 45 baud RTTY

13. - E3A09

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

SelectAnswer
A1.8 MHz - 1.9 MHz
B220 MHz - 450 MHz
C28 MHz - 148 MHz
D10 MHz - 14 MHz

14. - E3B05

Which amateur bands typically support long-path propagation?

SelectAnswer
AOnly 30 meters to 10 meters
BOnly 160 meters to 40 meters
C6 meters to 2 meters
D160 meters to 10 meters

15. - E3C15

What might be indicated by a sudden rise in radio background noise across a large portion of the HF spectrum?

SelectAnswer
ALong-path propagation is likely
BIncreased transequatorial propagation is likely
CA temperature inversion has occurred
DA solar flare has occurred

16. - E4A08

Which of the following measures SWR?

SelectAnswer
AAn antenna analyzer
BA Q meter
CA spectrum analyzer
DAn ohmmeter

17. - E4B03

Which S parameter is equivalent to forward gain?

SelectAnswer
AS21
BS22
CS12
DS11

18. - E4C09

Which of the following choices is a good reason for selecting a high frequency for the design of the IF in a superheterodyne HF or VHF communications receiver?

SelectAnswer
AEasier for front-end circuitry to eliminate image responses
BImproved receiver noise figure
CReduced drift
DFewer components in the receiver

19. - E4D02

Which of the following describes problems caused by poor dynamic range in a receiver?

SelectAnswer
AOscillator instability requiring frequent retuning and loss of ability to recover the opposite sideband
BOscillator instability and severe audio distortion of all but the strongest received signals
CCross-modulation of the desired signal and insufficient audio power to operate the speaker
DSpurious signals caused by cross-modulation and desensitization from strong adjacent signals

20. - E4E03

Which of the following signals might a receiver noise blanker be able to remove from desired signals?

SelectAnswer
ASignals that are constant at all IF levels
BSignals that appear at one IF but not another
CSignals that have a sharply peaked frequency distribution
DSignals that appear across a wide bandwidth

21. - E5A12

What is the half-power bandwidth of a resonant circuit that has a resonant frequency of 3.7 MHz and a Q of 118?

SelectAnswer
A31.4 kHz
B436.6 kHz
C15.7 kHz
D218.3 kHz

22. - E5B03

How is impedance in polar form converted to an equivalent admittance?

SelectAnswer
ASquare the magnitude and subtract 90 degrees from the angle
BTake the square root of the magnitude and add 180 degrees to the angle
CTake the reciprocal of the angle and change the sign of the magnitude
DTake the reciprocal of the magnitude and change the sign of the angle

23. - E5C09

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

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

24. - E5D09

What happens to reactive power in an AC circuit that has both ideal inductors and ideal capacitors?

SelectAnswer
AIt is dissipated as heat in the circuit
BIt is dissipated in the formation of inductive and capacitive fields
CIt is dissipated as kinetic energy in the circuit
DIt is repeatedly exchanged between the associated magnetic and electric fields, but is not dissipated

25. - E6A04

What is the name given to an impurity atom that adds holes to a semiconductor crystal structure?

SelectAnswer
AN-type impurity
BInsulator impurity
CDonor impurity
DAcceptor impurity

26. - E6B09

What is a common use for point-contact diodes?

SelectAnswer
AAs a constant current source
BAs a constant voltage source
CAs a high-voltage rectifier
DAs an RF detector

27. - E6C09

What is a Programmable Logic Device (PLD)?

SelectAnswer
AA type of transistor whose gain can be changed by digital logic circuits
BProgrammable equipment used for testing digital logic integrated circuits
CA programmable collection of logic gates and circuits in a single integrated circuit
DA logic circuit that can be modified during use

28. - E6D08

What is one reason for using powdered-iron cores rather than ferrite cores in an inductor?

SelectAnswer
APowdered-iron cores use smaller diameter wire for the same inductance
BPowdered-iron cores generally maintain their characteristics at higher currents
CPowdered-iron cores generally require fewer turns to produce a given inductance
DPowdered-iron cores generally have greater initial permeability

29. - E6E01

Why is gallium arsenide (GaAs) useful for semiconductor devices operating at UHF and higher frequencies?

SelectAnswer
ALower transconductance
BHigher electron mobility
CLower junction voltage drop
DHigher noise figures

30. - E6F09

What is the efficiency of a photovoltaic cell?

SelectAnswer
AThe open-circuit voltage divided by the short-circuit current under full illumination
BCost per kilowatt-hour generated
CThe output RF power divided by the input DC power
DThe relative fraction of light that is converted to current

31. - E7A01

Which circuit is bistable?

SelectAnswer
AA bipolar amplifier
BAn OR gate
CA flip-flop
DAn AND gate

32. - E7B14

Why are switching amplifiers more efficient than linear amplifiers?

SelectAnswer
AThe power transistor is at saturation or cutoff most of the time
BLinear amplifiers have high gain resulting in higher harmonic content
CSwitching amplifiers use push-pull circuits
DSwitching amplifiers operate at higher voltages

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 high-pass filter
CIt is a low-pass filter
DIt is a notch filter

34. - E7D08

What type of circuit is shown in Figure E7-2?

SelectAnswer
AGrounded emitter amplifier
BSwitching voltage regulator
CLinear voltage regulator
DMonostable multivibrator

35. - E7E01

Which of the following can be used to generate FM phone emissions?

SelectAnswer
AA reactance modulator on the oscillator
BA reactance modulator on the final amplifier
CA balanced modulator on the audio amplifier
DA balanced modulator on the oscillator

36. - E7F09

Why is an anti-aliasing digital filter required in a digital decimator?

SelectAnswer
AIt removes low-frequency signal components to eliminate the need for DC restoration
BIt removes high-frequency signal components that would otherwise be reproduced as lower frequency components
CIt peaks the response of the decimator, improving bandwidth
DIt notches out the sampling frequency to avoid sampling errors

37. - E7G05

How can unwanted ringing and audio instability be prevented in an op-amp RC audio filter circuit?

SelectAnswer
AIncrease both gain and Q
BRestrict gain but increase Q
CRestrict Q but increase gain
DRestrict both gain and Q

38. - E7H06

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

SelectAnswer
AColpitts and Hartley
BNegative feedback and balanced feedback
CArmstrong and deForest
DPierce and Zener

39. - E8A03

What type of wave does a Fourier analysis show to be made up of sine waves of a given fundamental frequency plus all its harmonics?

SelectAnswer
AA sawtooth wave
BA cosine wave
CA square wave
DA sine wave

40. - E8B01

What is the modulation index of an FM signal?

SelectAnswer
AThe type of modulation used by the transmitter
BThe bandwidth of the transmitted signal divided by the modulating signal frequency
CThe ratio of frequency deviation to modulating signal frequency
DThe ratio of modulating signal amplitude to frequency deviation

41. - E8C05

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

SelectAnswer
A52 Hz
B104 Hz
C26 Hz
D13 Hz

42. - E8D10

What are some of the differences between the Baudot digital code and ASCII?

SelectAnswer
ABaudot uses 5 data bits per character, ASCII uses 7 or 8; Baudot uses 2 characters as letters/figures shift codes, ASCII has no letters/figures shift code
BBaudot uses 7 data bits per character, ASCII uses 8; Baudot has no letters/figures shift code, ASCII uses 2 letters/figures shift codes
CBaudot uses 4 data bits per character, ASCII uses 7 or 8; Baudot uses 1 character as a letters/figures shift code, ASCII has no letters/figures code
DBaudot uses 6 data bits per character, ASCII uses 7 or 8; Baudot has no letters/figures shift code, ASCII uses 2 letters/figures shift codes

43. - E9A12

How much gain does an antenna have compared to a 1/2-wavelength dipole when it has 6 dB gain over an isotropic antenna?

SelectAnswer
A2.79 dB
B6.0 dB
C3.85 dB
D8.15 dB

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 increased by the gain of the antenna
CThe total amount of radiation from the directional antenna is stronger by its front-to-back ratio
DThey are the same

45. - E9C03

What is the radiation pattern of two 1/4-wavelength vertical antennas spaced 1/2-wavelength apart and fed in phase?

SelectAnswer
AA Figure-8 broadside to the axis of the array
BA Figure-8 end-fire along the axis of the array
CCardioid
DOmni-directional

46. - E9D05

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

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

47. - E9E08

What is a use for a Wilkinson divider?

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

48. - E9F10

What impedance does a 1/8-wavelength transmission line present to a generator when the line is shorted at the far end?

SelectAnswer
AThe same as the characteristic impedance of the line
BA capacitive reactance
CZero
DAn inductive reactance

49. - E9G09

What third family of circles is often added to a Smith chart during the process of solving problems?

SelectAnswer
ACoaxial-length circles
BRadiation-pattern circles
CAntenna-length circles
DStanding wave ratio circles

50. - E9H11

What feature of a cardioid pattern antenna makes it useful for direction finding?

SelectAnswer
AA very sharp peak
BA very sharp single null
CHigh radiation angle
DBroadband response

Figure E7-2