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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
A30 to 300 MHz
B3 to 30 MHz
C300 kHz to 3 MHz
D300 to 3000 MHz

2. - E1A05

What is the maximum power output permitted on the 60 meter band?

SelectAnswer
A100 watts PEP effective radiated power relative to the gain of a half-wave dipole
B100 watts PEP effective radiated power relative to an isotropic radiator
C50 watts PEP effective radiated power relative to a dipole
D50 watts PEP effective radiated power relative to an isotropic radiator

3. - E1B06

Which of the following additional rules apply if you are installing an amateur station antenna at a site at or near a public use airport?

SelectAnswer
AYou must submit engineering drawings to the FAA
BYou must obtain a construction permit from the airport zoning authority
CYou must file an Environmental Impact Statement with the EPA before construction begins
DYou may have to notify the Federal Aviation Administration and register it with the FCC as required by Part 17 of the FCC rules

4. - E1C11

Which of the following operating arrangements allows an FCC-licensed U.S. citizen to operate in many European countries, and alien amateurs from many European countries to operate in the U.S.?

SelectAnswer
AITU reciprocal license
BCEPT agreement
CAll these choices are correct
DIARP agreement

5. - E1D09

Which UHF amateur bands have frequencies authorized for space stations?

SelectAnswer
A70 cm and 33 cm
B70 cm and 13 cm
C33 cm and 13 cm
D70 cm only

6. - E1E04

Which of the following best describes the Volunteer Examiner accreditation process?

SelectAnswer
AThe prospective VE obtains accreditation from the FCC
BThe amateur operator applying must pass a VE examination administered by the FCC Enforcement Bureau
CThe procedure by which a VEC confirms that the VE applicant meets FCC requirements to serve as an examiner
DEach General, Advanced and Amateur Extra Class operator is automatically accredited as a VE when the license is granted

7. - E1F02

What privileges are authorized in the U.S. to persons holding an amateur service license granted by the government of Canada?

SelectAnswer
AFull privileges, up to and including those of the Amateur Extra Class license, on the 80, 40, 20, 15, and 10 meter bands
BThe operating terms and conditions of the Canadian amateur service license, not to exceed U.S. Amateur Extra Class license privileges
CNone, they must obtain a U.S. license
DAll privileges of the Amateur Extra Class license

8. - E2A11

What type of antenna can be used to minimize the effects of spin modulation and Faraday rotation?

SelectAnswer
AA circularly polarized antenna
BAn isotropic antenna
CA linearly polarized antenna
DA log-periodic dipole array

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
BVestigial sideband reduces bandwidth while allowing for simple video detector circuitry
CThe vestigial sideband carries the audio information
DThe vestigial sideband contains chroma information

10. - E2C08

Which of the following contacts may be confirmed through the U.S. QSL bureau system?

SelectAnswer
AContacts using tactical call signs
BSpecial event contacts between stations in the U.S.
CRepeater contacts between U.S. club members
DContacts between a U.S. station and a non-U.S. station

11. - E2D01

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

SelectAnswer
AAPRS
BHellschreiber
CMSK144
DWSPR

12. - E2E12

How do ALE stations establish contact?

SelectAnswer
AALE radios activate when they hear their signal echoed by back scatter
BALE constantly scans a list of frequencies, activating the radio when the designated call sign is received
CALE radios send a constant tone code to establish a frequency for future use
DALE radios monitor an internet site for the frequency they are being paged on

13. - E3A12

What is the cause of auroral activity?

SelectAnswer
AThe interaction in the F2 layer between the solar wind and the Van Allen belt
BThe interaction in the E layer of charged particles from the Sun with the Earth's magnetic field
CMeteor showers concentrated in the extreme northern and southern latitudes
DAn extreme low-pressure area in the polar regions

14. - E3B06

Which of the following amateur bands most frequently provides long-path propagation?

SelectAnswer
A80 meters
B10 meters
C20 meters
D6 meters

15. - E3C03

Which of the following signal paths is most likely to experience high levels of absorption when the A index or K index is elevated?

SelectAnswer
ATransequatorial
BNVIS
CPolar
DSporadic E

16. - E4A03

Which of the following test instruments is used to display spurious signals and/or intermodulation distortion products generated by an SSB transmitter?

SelectAnswer
AA logic analyzer
BA wattmeter
CA spectrum analyzer
DA time-domain reflectometer

17. - E4B04

Which S parameter represents input port return loss or reflection coefficient (equivalent to VSWR)?

SelectAnswer
AS22
BS21
CS11
DS12

18. - E4C13

How does a narrow-band roofing filter affect receiver performance?

SelectAnswer
AAll these choices are correct
BIt improves intelligibility by using low Q circuitry to reduce ringing
CIt improves dynamic range by attenuating strong signals near the receive frequency
DIt improves sensitivity by reducing front end noise

19. - E4D08

What causes intermodulation in an electronic circuit?

SelectAnswer
ALack of neutralization
BToo little gain
CNonlinear circuits or devices
DPositive feedback

20. - E4E03

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

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

21. - E5A06

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

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

22. - E5B04

What is the time constant of a circuit having two 220-microfarad capacitors and two 1-megohm resistors, all in parallel?

SelectAnswer
A55 seconds
B440 seconds
C220 seconds
D110 seconds

23. - E5C12

Which point on Figure E5-1 best represents the impedance of a series circuit consisting of a 300-ohm resistor and a 19-picofarad capacitor at 21.200 MHz?

SelectAnswer
APoint 3
BPoint 7
CPoint 1
DPoint 8

24. - E5D14

What is reactive power?

SelectAnswer
APower consumed in wire resistance in an inductor
BWattless, nonproductive power
CPower lost because of capacitor leakage
DPower consumed in circuit Q

25. - E6A10

In Figure E6-1, what is the schematic symbol for an N-channel dual-gate MOSFET?

SelectAnswer
A4
B2
C6
D5

26. - E6B02

What is an important characteristic of a Schottky diode as compared to an ordinary silicon diode when used as a power supply rectifier?

SelectAnswer
ALonger carrier retention time
BLess forward voltage drop
CMore constant reverse avalanche voltage
DMuch higher reverse voltage breakdown

27. - E6C06

Why do CMOS digital integrated circuits have high immunity to noise on the input signal or power supply?

SelectAnswer
ABandwidth is very limited
BLarge bypass capacitance is inherent
CThe input switching threshold is about one-half the power supply voltage
DThe input switching threshold is about two times the power supply voltage

28. - E6D13

What is the primary cause of inductor self-resonance?

SelectAnswer
ANon-linear core hysteresis
BInter-turn capacitance
CThe skin effect
DInductive kickback

29. - E6E08

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

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

30. - E6F08

Why are optoisolators often used in conjunction with solid-state circuits when switching 120 VAC?

SelectAnswer
AOptoisolators provide impedance matching between the control circuit and power circuit
BOptoisolators provide a very high degree of electrical isolation between a control circuit and the circuit being switched
COptoisolators provide a low impedance link between a control circuit and a power circuit
DOptoisolators eliminate the effects of reflected light in the control circuit

31. - E7A01

Which circuit is bistable?

SelectAnswer
AA flip-flop
BA bipolar amplifier
CAn OR gate
DAn AND gate

32. - E7B15

What is one way to prevent thermal runaway in a bipolar transistor amplifier?

SelectAnswer
AUse a resistor in series with the emitter
BNeutralization
CAll these choices are correct
DSelect transistors with high beta

33. - E7C05

Which filter type is described as having ripple in the passband and a sharp cutoff?

SelectAnswer
AA Chebyshev filter
BA passive op-amp filter
CAn active LC filter
DA Butterworth filter

34. - E7D13

What is the equation for calculating power dissipated by a series linear voltage regulator?

SelectAnswer
AVoltage difference from input to output multiplied by output current
BInput voltage divided by output current
CInput voltage multiplied by input current
DOutput voltage multiplied by output current

35. - E7E05

What circuit is added to an FM transmitter to boost the higher audio frequencies?

SelectAnswer
AA de-emphasis network
BA heterodyne enhancer
CA heterodyne suppressor
DA pre-emphasis network

36. - E7F05

How frequently must an analog signal be sampled by an analog-to-digital converter so that the signal can be accurately reproduced?

SelectAnswer
AAt least half the rate of the highest frequency component of the signal
BAt the same rate as the highest frequency component of the signal
CAt four times the rate of the highest frequency component of the signal
DAt least twice the rate of the highest frequency component of the signal

37. - E7G06

What is the gain-bandwidth of an operational amplifier?

SelectAnswer
AThe maximum frequency for a filter circuit using that type of amplifier
BThe gain of the amplifier at a filter's cutoff frequency
CThe frequency at which the open-loop gain of the amplifier equals one
DThe frequency at which the amplifier's offset voltage is zero

38. - E7H14

What is a phase-locked loop circuit?

SelectAnswer
AAn electronic circuit also known as a monostable multivibrator
BAn electronic circuit consisting of a precision push-pull amplifier with a differential input
CAn electronic servo loop consisting of a phase detector, a low-pass filter, a voltage-controlled oscillator, and a stable reference oscillator
DAn electronic servo loop consisting of a ratio detector, reactance modulator, and voltage-controlled oscillator

39. - E8A05

What of the following instruments would be the most accurate for measuring the RMS voltage of a complex waveform?

SelectAnswer
AA true-RMS calculating meter
BA grid dip meter
CA D'Arsonval meter
DAn absorption wave meter

40. - E8B04

What is the modulation index of an FM-phone signal having a maximum carrier deviation of plus or minus 6 kHz when modulated with a 2 kHz modulating frequency?

SelectAnswer
A6000
B3
C2000
D1/3

41. - E8C10

How may data rate be increased without increasing bandwidth?

SelectAnswer
AUsing forward error correction
BUsing a more efficient digital code
CIncreasing analog-to-digital conversion resolution
DIt is impossible

42. - E8D06

What is the advantage of including parity bits in ASCII characters?

SelectAnswer
AThe signal can overpower interfering signals
BFaster transmission rate
CForeign language characters can be sent
DSome types of errors can be detected

43. - E9A03

What is the radiation resistance of an antenna?

SelectAnswer
AThe value of a resistance that would dissipate the same amount of power as that radiated from an antenna
BThe combined losses of the antenna elements and feed line
CThe specific impedance of the antenna
DThe resistance in the atmosphere that an antenna must overcome to be able to radiate a signal

44. - E9B02

In the antenna radiation pattern shown in Figure E9-1, what is the front-to-back ratio?

SelectAnswer
A18 dB
B14 dB
C36 dB
D24 dB

45. - E9C08

What is a folded dipole antenna?

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

46. - E9D04

Why should an HF mobile antenna loading coil have a high ratio of reactance to resistance?

SelectAnswer
ATo minimize the Q
BTo lower the radiation angle
CTo minimize losses
DTo swamp out harmonics

47. - E9E08

What is a use for a Wilkinson divider?

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

48. - E9F09

What is the approximate physical length of a foam polyethylene dielectric coaxial transmission line that is electrically 1/4 wavelength long at 7.2 MHz?

SelectAnswer
A5.2 meters
B6.9 meters
C8.3 meters
D10.4 meters

49. - E9G06

On the Smith chart shown in Figure E9-3, what is the name for the large outer circle on which the reactance arcs terminate?

SelectAnswer
APolar axis
BPrime axis
CImpedance axis
DReactance axis

50. - E9H04

What is an advantage of placing a grounded electrostatic shield around a small loop direction-finding antenna?

SelectAnswer
AIt increases signal strength by providing a better match to the feed line
BIt eliminates unbalanced capacitive coupling to the surroundings, improving the nulls
CIt adds capacitive loading, increasing the bandwidth of the antenna
DIt eliminates tracking errors caused by strong out-of-band signals

Figure E5-1

Figure E6-1

Figure E9-1

Figure E9-3