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

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1. - E0A05

What is one of the potential hazards of operating in the amateur radio microwave bands?

SelectAnswer
AMicrowaves are ionizing radiation
BThe extremely high frequency energy can damage the joints of antenna structures
CMicrowaves often travel long distances by ionospheric reflection
DThe high gain antennas commonly used can result in high exposure levels

2. - E1A14

Except in some parts of Alaska, what is the maximum power permitted on the 630 meter band?

SelectAnswer
A100 watts PEP
B50 watts PEP
C5 watts EIRP
D1 watt EIRP

3. - E1B11

What does PRB-1 require of regulations affecting amateur radio?

SelectAnswer
ANo limitations may be placed on antenna size or placement
BUse of wireless devices in a vehicle is exempt from regulation
CReasonable accommodations of amateur radio must be made
DAmateur radio operations must be permitted in any private residence

4. - E1C06

Which of the following is required in order to operate in accordance with CEPT rules in foreign countries where permitted?

SelectAnswer
AThe U.S. embassy must approve of your operation
BYou must bring a copy of FCC Public Notice DA 16-1048
CYou must identify in the official language of the country in which you are operating
DYou must append "/CEPT" to your call sign

5. - E1D07

Which HF amateur bands have frequencies authorized for space stations?

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

6. - E1E02

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

SelectAnswer
AThe VECs
BThe FCC
CThe VEs
DThe ARRL

7. - E1F11

Which of the following best describes one of the standards that must be met by an external RF power amplifier if it is to qualify for a grant of FCC certification?

SelectAnswer
AIt must satisfy the FCC's spurious emission standards when operated at the lesser of 1500 watts or its full output power
BIt must produce full legal output when driven by not more than 5 watts of mean RF input power
CIt must exhibit a gain of 0 dB or less over its full output range
DIt must be capable of external RF switching between its input and output networks

8. - E2A06

What are Keplerian elements?

SelectAnswer
AParameters that define the orbit of a satellite
BEncrypting codes used for spread spectrum modulation
CHigh-emission heater filaments used in magnetron tubes
DPhase reversing elements in a Yagi antenna

9. - E2B12

What signals SSTV receiving software to begin a new picture line?

SelectAnswer
AA two-tone signal
BElapsed time
CSpecific tone frequencies
DSpecific tone amplitudes

10. - E2C06

During a VHF/UHF contest, in which band segment would you expect to find the highest level of SSB or CW activity?

SelectAnswer
AIn the middle of the band, usually 25 kHz above the national calling frequency
BIn the middle of each band, usually on the national calling frequency
CIn the weak signal segment of the band, with most of the activity near the calling frequency
DAt the top of each band, usually in a segment reserved for contests

11. - E2D08

What type of packet frame is used to transmit APRS beacon data?

SelectAnswer
AAcknowledgement
BDisconnect
CUnnumbered Information
DConnect

12. - E2E06

What is the most common data rate used for HF packet?

SelectAnswer
A1200 baud
B48 baud
C300 baud
D110 baud

13. - E3A04

What do Hepburn maps predict?

SelectAnswer
ALocations of auroral reflecting zones
BSporadic E propagation
CProbability of tropospheric propagation
DLikelihood of rain scatter along cold or warm fronts

14. - E3B02

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

SelectAnswer
A1000 miles
B2500 miles
C5000 miles
D7500 miles

15. - E3C09

How does the intensity of an X3 flare compare to that of an X2 flare?

SelectAnswer
A50 percent greater
BTwice as great
C10 percent greater
DFour times as great

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 frequency
CSWR and time
DRF amplitude and time

17. - E4B03

Which S parameter is equivalent to forward gain?

SelectAnswer
AS22
BS12
CS21
DS11

18. - E4C05

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

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

19. - E4D10

What does a third-order intercept level of 40 dBm mean with respect to receiver performance?

SelectAnswer
AA pair of 1 mW input signals will produce a third-order intermodulation product that is 40 dB stronger than the input signal
BA pair of 40 dBm input signals will theoretically generate a third-order intermodulation product that has the same output amplitude as either of the input signals
CSignals less than 40 dBm will not generate audible third-order intermodulation products
DThe receiver can tolerate signals up to 40 dB above the noise floor without producing third-order intermodulation products

20. - E4E07

Which of the following can cause shielded cables to radiate or receive interference?

SelectAnswer
ALow inductance ground connections at both ends of the shield
BCommon-mode currents on the shield and conductors
CUse of braided shielding material
DTying all ground connections to a common point resulting in differential-mode currents in the shield

21. - E5A01

What can cause the voltage across reactances in a series RLC circuit to be higher than the voltage applied to the entire circuit?

SelectAnswer
AResonance
BResistance
CConductance
DCapacitance

22. - E5B06

What is susceptance?

SelectAnswer
AThe ratio of magnetic field to electric field
BA measure of the efficiency of a transformer
CThe magnetic impedance of a circuit
DThe imaginary part of admittance

23. - E5C06

What does the impedance 50-j25 represent?

SelectAnswer
A25 ohms resistance in series with 50 ohms inductive reactance
B25 ohms resistance in series with 50 ohms capacitive reactance
C50 ohms resistance in series with 25 ohms capacitive reactance
D50 ohms resistance in series with 25 ohms inductive reactance

24. - E5D12

How many watts are consumed in a circuit having a power factor of 0.2 if the input is 100 VAC at 4 amperes?

SelectAnswer
A80 watts
B50 watts
C2000 watts
D400 watts

25. - E6A09

What is a depletion-mode FET?

SelectAnswer
AAny FET without a channel
BAn FET that exhibits a current flow between source and drain when no gate voltage is applied
CAny FET for which holes are the majority carriers
DAn FET that has no current flow between source and drain when no gate voltage is applied

26. - E6B06

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

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

27. - E6C04

Which of the following is an advantage of BiCMOS logic?

SelectAnswer
AIt is immune to electrostatic damage
BIt has the high input impedance of CMOS and the low output impedance of bipolar transistors
CIts simplicity results in much less expensive devices than standard CMOS
DAll these choices are correct

28. - E6D05

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

SelectAnswer
AFerrite toroids generally have better temperature stability
BFerrite toroids are easier to use with surface mount technology
CFerrite toroids generally require fewer turns to produce a given inductance value
DFerrite toroids generally have lower initial permeability

29. - E6E10

What advantage does surface-mount technology offer at RF compared to using through-hole components?

SelectAnswer
AComponents have less parasitic inductance and capacitance
BAll these choices are correct
CShorter circuit-board traces
DSmaller circuit area

30. - E6F06

Which of these materials is most commonly used to create photoconductive devices?

SelectAnswer
AA heavy metal
BA liquid semiconductor
CA crystalline semiconductor
DAn ordinary metal

31. - E7A03

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

SelectAnswer
AA flip-flop
BA multiplexer
CAn OR gate
DAn XOR gate

32. - E7B13

Which of the following describes an emitter follower (or common collector) amplifier?

SelectAnswer
AA differential amplifier with both inputs fed to the emitter of the input transistor
BAn amplifier with a low impedance output that follows the base input voltage
CAn OR circuit with only one emitter used for output
DA two-transistor amplifier with the emitters sharing a common bias resistor

33. - E7C05

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

SelectAnswer
AA passive op-amp filter
BAn active LC filter
CA Butterworth filter
DA Chebyshev filter

34. - E7D07

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

SelectAnswer
AIt bypasses rectifier output ripple around D1
BTo self-resonate at the hum frequency
CIt is a brute force filter for the output
DTo provide fixed DC bias for Q1

35. - E7E02

What is the function of a reactance modulator?

SelectAnswer
ATo produce PM signals by using an electrically variable resistance
BTo produce AM signals by using an electrically variable resistance
CTo produce AM signals by using an electrically variable inductance or capacitance
DTo produce PM or FM signals by using an electrically variable inductance or capacitance

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
A10 bits
B8 bits
C6 bits
D4 bits

37. - E7G04

What is meant by the "op-amp input offset voltage"?

SelectAnswer
AThe potential between the amplifier input terminals of the op-amp in an open loop condition
BThe difference between the output voltage of the op-amp and the input voltage required in the immediately following stage
CThe output voltage of the op-amp minus its input voltage
DThe differential input voltage needed to bring the open loop output voltage to zero

38. - E7H04

How is positive feedback supplied in a Colpitts oscillator?

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

39. - E8A07

What determines the PEP-to-average power ratio of a single-sideband phone signal?

SelectAnswer
AThe frequency of the modulating signal
BSpeech characteristics
CThe degree of carrier suppression
DAmplifier gain

40. - E8B02

How does the modulation index of a phase-modulated emission vary with RF carrier frequency?

SelectAnswer
AIt increases as the RF carrier frequency increases
BIt decreases as the RF carrier frequency increases
CIt does not depend on the RF carrier frequency
DIt varies with the square root of the RF carrier frequency

41. - E8C04

What technique minimizes the bandwidth of a PSK31 signal?

SelectAnswer
AUse of trapezoidal data pulses
BZero-sum character encoding
CUse of sinusoidal data pulses
DReed-Solomon 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 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
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 7 data bits per character, ASCII uses 8; Baudot has no letters/figures shift code, ASCII uses 2 letters/figures shift codes

43. - E9A02

What is the effective radiated power relative to a dipole of a repeater station with 150 watts transmitter power output, 2 dB feed line loss, 2.2 dB duplexer loss, and 7 dBd antenna gain?

SelectAnswer
A1977 watts
B78.7 watts
C286 watts
D420 watts

44. - E9B05

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

SelectAnswer
ARadiation resistance
BPolarization
CAzimuth
DElevation

45. - E9C05

Which of the following is a type of OCFD antenna?

SelectAnswer
AA dipole fed approximately 1/3 the way from one end with a 4:1 balun to provide multiband operation
BA folded dipole center-fed with 300-ohm transmission line
CA multiband dipole antenna using one-way circular polarization for frequency diversity
DA remotely tunable dipole antenna using orthogonally controlled frequency diversity

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. - E9E01

What system matches a higher-impedance transmission line to a lower-impedance antenna by connecting the line to the driven element in two places spaced a fraction of a wavelength each side of element center?

SelectAnswer
AThe gamma matching system
BThe stub matching system
CThe delta matching system
DThe omega matching system

48. - E9F06

What is the approximate physical length of an air-insulated, parallel conductor transmission line that is electrically 1/2 wavelength long at 14.10 MHz?

SelectAnswer
A8.5 meters
B13.3 meters
C10.6 meters
D7.0 meters

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 length and position of an impedance matching stub
CDetermine the gain of an antenna given the physical and electrical parameters
DDetermine the impedance of a transmission line, given the physical dimensions

50. - E9H03

What is Receiving Directivity Factor (RDF)?

SelectAnswer
ARelative directivity compared to isotropic
BForward gain compared to the gain in the reverse direction
CForward gain compared to average gain over the entire hemisphere
DRelative directivity compared to a dipole

Figure E7-2

Figure E9-2