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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
B300 kHz to 3 MHz
C3 to 30 MHz
D300 to 3000 MHz

2. - E1A04

With your transceiver displaying the carrier frequency of phone signals, you hear a DX station calling CQ on 3.601 MHz LSB. Is it legal to return the call using lower sideband on the same frequency?

SelectAnswer
ANo, U.S. stations are not permitted to use phone emissions below 3.610 MHz
BYes, because the displayed frequency is within the 75 meter phone band segment
CNo, the sideband will extend beyond the edge of the phone band segment
DYes, because the DX station initiated the contact

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

4. - E1C05

When may an automatically controlled station originate third party communications?

SelectAnswer
AWhen agreed upon by the sending or receiving station
BWhen approved by the National Telecommunication and Information Administration
COnly when transmitting RTTY or data emissions
DNever

5. - E1D09

Which UHF amateur bands have frequencies authorized for space stations?

SelectAnswer
A33 cm and 13 cm
B70 cm only
C70 cm and 13 cm
D70 cm and 33 cm

6. - E1E02

Who does Part 97 task with maintaining the pools of questions for all U.S. amateur license examinations?

SelectAnswer
AThe ARRL
BThe VEs
CThe FCC
DThe VECs

7. - E1F05

Amateur stations may not transmit in which of the following frequency segments if they are located in the contiguous 48 states and north of Line A?

SelectAnswer
A420 MHz - 430 MHz
B440 MHz - 450 MHz
C222 MHz - 223 MHz
D53 MHz - 54 MHz

8. - E2A04

What is meant by the term mode? as applied to an amateur radio satellite?

SelectAnswer
AWhether the satellite is in a low earth or geostationary orbit
BWhether the satellite is in a polar or equatorial orbit
CThe satellite's orientation with respect to the Earth
DThe satellite's uplink and downlink frequency bands

9. - E2B09

What hardware, other than a receiver with SSB capability and a suitable computer, is needed to decode SSTV using Digital Radio Mondiale (DRM)?

SelectAnswer
AA special front end limiter
BNo other hardware is needed
CA special notch filter to remove synchronization pulses
DA special IF converter

10. - E2C10

Why might a DX station state that they are listening on another frequency?

SelectAnswer
AAll these choices are correct
BBecause the DX station may be transmitting on a frequency that is prohibited to some responding stations
CTo separate the calling stations from the DX station
DTo improve operating efficiency by reducing interference

11. - E2D02

Which of the following is a good technique for making meteor scatter contacts?

SelectAnswer
A15-second timed transmission sequences with stations alternating based on location
BAll these choices are correct
CUse of special digital modes
DShort transmissions with rapidly repeated call signs and signal reports

12. - E2E03

How is the timing of FT4 contacts organized?

SelectAnswer
AIt depends on the lunar phase
BAlternating transmissions at 7.5 second intervals
CBy exchanging ACK/NAK packets
DStations take turns on alternate days

13. - E3A10

Which type of atmospheric structure can create a path for microwave propagation?

SelectAnswer
ATemperature inversion
BThe jet stream
CWind shear
DDust devil

14. - E3B04

What is meant by the terms "extraordinary" and "ordinary" waves?

SelectAnswer
AExtraordinary waves describe rare long-skip propagation compared to ordinary waves, which travel shorter distances
BIndependent waves created in the ionosphere that are elliptically polarized
CRefracted rays and reflected waves
DLong-path and short-path waves

15. - E3C08

What does the space weather term G5 mean?

SelectAnswer
AVery low solar activity
BWaning sunspot numbers
CModerate solar wind
DAn extreme geomagnetic storm

16. - E4A08

Which of the following measures SWR?

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

17. - E4B03

Which S parameter is equivalent to forward gain?

SelectAnswer
AS22
BS11
CS21
DS12

18. - E4C05

What does a receiver noise floor of -174 dBm represent?

SelectAnswer
AThe noise figure of a 1 Hz bandwidth receiver
BThe minimum detectable signal as a function of receive frequency
CThe galactic noise contribution to minimum detectable signal
DThe theoretical noise in a 1 Hz bandwidth at the input of a perfect receiver at room temperature

19. - E4D11

Why are odd-order intermodulation products, created within a receiver, of particular interest compared to other products?

SelectAnswer
AOdd-order products of two signals in the band of interest are also likely to be within the band
BOdd-order products overload the IF filters
COdd-order intermodulation produces three products for every input signal within the band of interest
DOdd-order products are an indication of poor image rejection

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
BApproximately equal to inductive reactance
CApproximately equal to circuit resistance
DHigh compared to the circuit resistance

22. - E5B12

What is admittance?

SelectAnswer
AThe inverse of Q factor
BThe inverse of impedance
CThe turns ratio of a transformer
DThe term for the gain of a field effect transistor

23. - E5C04

What coordinate system is often used to display the resistive, inductive, and/or capacitive reactance components of impedance?

SelectAnswer
AFaraday grid
BRectangular coordinates
CElliptical coordinates
DMaidenhead grid

24. - E5D02

Why is it important to keep lead lengths short for components used in circuits for VHF and above?

SelectAnswer
ATo maintain component lifetime
BTo increase the thermal time constant
CTo avoid unwanted inductive reactance
DAll these choices are correct

25. - E6A08

What term indicates the frequency at which the grounded-base current gain of a transistor has decreased to 0.7 of the gain obtainable at 1 kHz?

SelectAnswer
AAlpha rejection frequency
BAlpha cutoff frequency
CBeta cutoff frequency
DCorner frequency

26. - E6B06

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

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

27. - E6C02

What happens when the level of a comparator's input signal crosses the threshold?

SelectAnswer
AThe comparator changes its output state
BThe IC input can be damaged
CThe comparator enters latch-up
DThe feedback loop becomes unstable

28. - E6D08

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

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

29. - E6E11

What is a characteristic of DIP packaging used for integrated circuits?

SelectAnswer
AA total of two rows of connecting pins placed on opposite sides of the package (Dual In-line Package)
BPackage mounts in a direct inverted position
CLow leakage doubly insulated package
DTwo chips in each package (Dual In Package)

30. - E6F01

What absorbs the energy from light falling on a photovoltaic cell?

SelectAnswer
AProtons
BElectrons
CPhotons
DHoles

31. - E7A05

Which of the following is a circuit that continuously alternates between two states without an external clock?

SelectAnswer
AMonostable multivibrator
BT flip-flop
CJ-K flip-flop
DAstable multivibrator

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

34. - E7D14

What is the purpose of connecting equal-value resistors across power supply filter capacitors connected in series?

SelectAnswer
ADischarge the capacitors when voltage is removed
BAll these choices are correct
CEqualize the voltage across each capacitor
DProvide a minimum load on the supply

35. - E7E05

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

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

36. - E7F12

Which of the following is an advantage of a Finite Impulse Response (FIR) filter vs an Infinite Impulse Response (IIR) digital filter?

SelectAnswer
AAll these choices are correct
BFIR filters can delay all frequency components of the signal by the same amount
CFIR filters can respond faster to impulses
DFIR filters are easier to implement for a given set of passband rolloff requirements

37. - E7G06

What is the gain-bandwidth of an operational amplifier?

SelectAnswer
AThe gain of the amplifier at a filter's cutoff frequency
BThe maximum frequency for a filter circuit using that type of amplifier
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. - E7H06

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

SelectAnswer
APierce and Zener
BNegative feedback and balanced feedback
CColpitts and Hartley
DArmstrong and deForest

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. - E8B10

What is frequency division multiplexing?

SelectAnswer
AThe transmitted signal is divided into packets of information
BTwo or more information streams are merged into a digital combiner, which then pulse position modulates the transmitter
CThe transmitted signal jumps from band to band at a predetermined rate
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
AUse of trapezoidal data pulses
BReed-Solomon character encoding
CUse of sinusoidal data pulses
DZero-sum character encoding

42. - E8D10

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

SelectAnswer
ABaudot 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
BBaudot 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
CBaudot uses 7 data bits per character, ASCII uses 8; Baudot has no letters/figures shift code, ASCII uses 2 letters/figures shift codes
DBaudot 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

43. - E9A09

What is antenna efficiency?

SelectAnswer
ARadiation resistance divided by transmission resistance
BRadiation resistance divided by total resistance
CEffective radiated power divided by transmitter output
DTotal resistance divided by radiation resistance

44. - E9B06

What is the elevation angle of peak response in the antenna radiation pattern shown in Figure E9-2?

SelectAnswer
A45 degrees
B7.5 degrees
C25 degrees
D75 degrees

45. - E9C01

What is the radiation pattern of two 1/4-wavelength vertical antennas spaced 1/2-wavelength apart and fed 180 degrees out of phase?

SelectAnswer
ACardioid
BA figure-8 broadside to the axis of the array
CA figure-8 oriented along the axis of the array
DOmni-directional

46. - E9D03

Where should a high Q loading coil be placed to minimize losses in a shortened vertical antenna?

SelectAnswer
ANear the center of the vertical radiator
BAt a voltage node
CAs low as possible on the vertical radiator
DAs close to the transmitter as possible

47. - E9E08

What is a use for a Wilkinson divider?

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

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
AReactance axis
BPrime axis
CImpedance axis
DPolar axis

50. - E9H07

Why is RF attenuation used when direction-finding?

SelectAnswer
ATo prevent receiver overload which reduces pattern nulls
BTo increase receiver sensitivity
CTo narrow the receiver bandwidth
DTo compensate for isotropic directivity and the antenna effect of feed lines

Figure E9-2

Figure E9-3