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

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1. - E0A06

Why are there separate electric (E) and magnetic (H) field MPE limits?

SelectAnswer
AAll these choices are correct
BThe body reacts to electromagnetic radiation from both the E and H fields
CE field and H field radiation intensity peaks can occur at different locations
DGround reflections and scattering make the field strength vary with location

2. - E1A08

If a station in a message forwarding system inadvertently forwards a message that is in violation of FCC rules, who is primarily accountable for the rules violation?

SelectAnswer
AThe control operators of all the stations in the system
BThe control operators of all the stations in the system not authenticating the source from which they accept communications
CThe control operator of the packet bulletin board station
DThe control operator of the originating station

3. - E1B04

What must be done before placing an amateur station within an officially designated wilderness area or wildlife preserve, or an area listed in the National Register of Historic Places?

SelectAnswer
AAn Environmental Assessment must be submitted to the FCC
BA proposal must be submitted to the National Park Service
CA letter of intent must be filed with the Environmental Protection Agency
DA form FSD-15 must be submitted to the Department of the Interior

4. - E1C04

What is meant by IARP?

SelectAnswer
AThe internal amateur radio practices policy of the FCC
BA forecast of intermittent aurora radio propagation
CAn indication of increased antenna reflected power
DAn international amateur radio permit that allows U.S. amateurs to operate in certain countries of the Americas

5. - E1D06

What is the maximum permitted transmitter output power when operating a model craft by telecommand?

SelectAnswer
A5 watts
B2 watts
C100 watts
D1 watt

6. - E1E12

What must the VE team do with the application form if the examinee does not pass the exam?

SelectAnswer
AReturn the application document to the examinee
BSend the application form to the FCC and inform the FCC of the grade
CMaintain the application form with the VEC's records
DDestroy the application form

7. - E1F03

Under what circumstances may a dealer sell an external RF power amplifier capable of operation below 144 MHz if it has not been granted FCC certification?

SelectAnswer
AIt was imported from a manufacturer in a country that does not require certification of RF power amplifiers
BIt was imported from a manufacturer in another country and was certificated by that country's government
CThe equipment dealer assembled it from a kit
DIt was purchased in used condition from an amateur operator and is sold to another amateur operator for use at that operator's station

8. - E2A07

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

SelectAnswer
APSK and packet
BAll these choices are correct
CSSB and SSTV
DFM and CW

9. - E2B07

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

SelectAnswer
ALuminance
BSpectral intensity
CHue
DChroma

10. - E2C08

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

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

11. - E2D03

Which of the following digital modes is especially useful for EME communications?

SelectAnswer
AJT65
BPACTOR III
CMSK144
DOlivia

12. - E2E06

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

SelectAnswer
A1200 baud
B300 baud
C110 baud
D48 baud

13. - E3A03

When scheduling EME contacts, which of these conditions will generally result in the least path loss?

SelectAnswer
AWhen the moon is full
BWhen the moon is at perigee
CWhen the moon is at apogee
DWhen the MUF is above 30 MHz

14. - E3B10

Why is chordal hop propagation desirable?

SelectAnswer
AAtmospheric noise is lower in the direction of chordal hop propagation
BThe MUF for chordal hop propagation is much lower than for normal skip propagation
CThe signal experiences less loss compared to multi-hop using Earth as a reflector
DSignals travel faster along ionospheric chords

15. - E3C14

Why does the radio-path horizon distance exceed the geometric horizon?

SelectAnswer
ADue to the Doppler effect
BD-region skip
CE-region skip
DDownward bending due to density variations in the atmosphere

16. - E4A06

What is the effect of aliasing on a digital oscilloscope caused by setting the time base too slow?

SelectAnswer
AExcessive blanking occurs, which prevents display of the signal
BA false, jittery low-frequency version of the signal is displayed
CAll signals will have a DC offset
DCalibration of the vertical scale is no longer valid

17. - E4B11

Which of the following can be measured with a vector network analyzer?

SelectAnswer
AAll these choices are correct
BReflection coefficient
COutput impedance
DInput impedance

18. - E4C05

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

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

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
BThe receiver can tolerate signals up to 40 dB above the noise floor without producing third-order intermodulation products
CA 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
DSignals less than 40 dBm will not generate audible third-order intermodulation products

20. - E4E10

What might be the cause of a loud roaring or buzzing AC line interference that comes and goes at intervals?

SelectAnswer
AA malfunctioning illuminated advertising display
BA defective doorbell or doorbell transformer inside a nearby residence
CAll these choices are correct
DArcing contacts in a thermostatically controlled device

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
AConductance
BResonance
CResistance
DCapacitance

22. - E5B05

What happens to the magnitude of a pure reactance when it is converted to a susceptance?

SelectAnswer
AIt is shifted by 90 degrees
BIt becomes the reciprocal
CThe sign is reversed
DIt is unchanged

23. - E5C06

What does the impedance 50-j25 represent?

SelectAnswer
A25 ohms resistance in series with 50 ohms capacitive reactance
B50 ohms resistance in series with 25 ohms capacitive reactance
C50 ohms resistance in series with 25 ohms inductive reactance
D25 ohms resistance in series with 50 ohms inductive reactance

24. - E5D03

What is microstrip?

SelectAnswer
AShort lengths of coax mounted on printed circuit boards to minimize time delay between microwave circuits
BLightweight transmission line made of common zip cord
CPrecision printed circuit conductors above a ground plane that provide constant impedance interconnects at microwave frequencies
DMiniature coax used for low power applications

25. - E6A03

Why does a PN-junction diode not conduct current when reverse biased?

SelectAnswer
AOnly P-type semiconductor material can conduct current
BExcess holes in P-type material combine with the electrons in N-type material, converting the entire diode into an insulator
COnly N-type semiconductor material can conduct current
DHoles in P-type material and electrons in the N-type material are separated by the applied voltage, widening the depletion region

26. - E6B01

What is the most useful characteristic of a Zener diode?

SelectAnswer
AAn internal capacitance that varies with the applied voltage
BA constant voltage drop under conditions of varying current
CA constant current drop under conditions of varying voltage
DA negative resistance region

27. - E6C02

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

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

28. - E6D02

What is the equivalent circuit of a quartz crystal?

SelectAnswer
AMotional capacitance, motional inductance, loss resistance, and a capacitor representing electrode and stray capacitance all in series
BMotional capacitance, motional inductance, and loss resistance in series, all in parallel with a shunt capacitor representing electrode and stray capacitance
CMotional capacitance, motional inductance, loss resistance, and a capacitor representing electrode and stray capacitance all in parallel
DMotional inductance and loss resistance in series, paralleled with motional capacitance and a capacitor representing electrode and stray capacitance

29. - E6E07

What type of transmission line is used for connections to MMICs?

SelectAnswer
ACircular waveguide
BParallel wire
CMiniature coax
DMicrostrip

30. - E6F03

What is the most common configuration of an optoisolator or optocoupler?

SelectAnswer
AA lens and a photomultiplier
BAn LED and a phototransistor
CAn amplitude modulated helium-neon laser
DA frequency modulated helium-neon laser

31. - E7A03

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

SelectAnswer
AA multiplexer
BAn OR gate
CA flip-flop
DAn XOR gate

32. - E7B17

Why are odd-order rather than even-order intermodulation distortion products of concern in linear power amplifiers?

SelectAnswer
ABecause they maintain the sidebands, thus causing multiple duplicate signals
BBecause they are relatively far in frequency from the desired signal
CBecause they are relatively close in frequency to the desired signal
DBecause they invert the sidebands causing distortion

33. - E7C07

Which describes a Pi-L-network used for matching a vacuum tube final amplifier to a 50-ohm unbalanced output?

SelectAnswer
AA network with only three discrete parts
BA matching network in which all components are isolated from ground
CA Phase Inverter Load network
DA Pi-network with an additional series inductor on the output

34. - E7D06

What is the purpose of Q1 in the circuit shown in Figure E7-2?

SelectAnswer
AIt provides D1 with current
BIt controls the current supplied to the load
CIt provides a constant load for the voltage source
DIt provides negative feedback to improve regulation

35. - E7E04

What is one way a single-sideband phone signal can be generated?

SelectAnswer
ABy using a reactance modulator followed by a mixer
BBy using a loop modulator followed by a mixer
CBy using a balanced modulator followed by a filter
DBy driving a product detector with a DSB signal

36. - E7F10

What aspect of receiver analog-to-digital conversion determines the maximum receive bandwidth of a Direct Digital Conversion SDR?

SelectAnswer
ASample clock phase noise
BSample rate
CProcessor latency
DSample width in bits

37. - E7G02

What is ringing in a filter?

SelectAnswer
AAn echo caused by a long time delay
BA reduction in high frequency response
CPartial cancellation of the signal over a range of frequencies
DUndesired oscillations added to the desired signal

38. - E7H05

How is positive feedback supplied in a Pierce oscillator?

SelectAnswer
AThrough link coupling
BThrough a quartz crystal
CThrough a tapped coil
DThrough a neutralizing capacitor

39. - E8A10

What is the purpose of a low-pass filter used in conjunction with a digital-to-analog converter?

SelectAnswer
ARemove harmonics from the output caused by the discrete analog levels generated
BLower the input bandwidth to increase the effective resolution
CAll these choices are correct
DImprove accuracy by removing out-of-sequence codes from the input

40. - E8B05

What is the deviation ratio of an FM-phone signal having a maximum frequency swing of plus-or-minus 5 kHz when the maximum modulation frequency is 3 kHz?

SelectAnswer
A60
B0.167
C1.67
D0.6

41. - E8C12

What factors affect the bandwidth of a transmitted CW signal?

SelectAnswer
AKeying speed and shape factor (rise and fall time)
BIF bandwidth and Q
CAll these choices are correct
DModulation index and output power

42. - E8D02

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

SelectAnswer
AFrequency hopping
BBinary phase-shift keying
CPhase compandored spread spectrum
DDirect sequence

43. - E9A06

What is the effective radiated power relative to a dipole of a repeater station with 200 watts transmitter power output, 4 dB feed line loss, 3.2 dB duplexer loss, 0.8 dB circulator loss, and 10 dBd antenna gain?

SelectAnswer
A126 watts
B300 watts
C2000 watts
D317 watts

44. - E9B08

What is the far field of an antenna?

SelectAnswer
AThe region where radiated power dissipates over a specified time period
BThe region of the ionosphere where radiated power is not refracted
CThe region where the shape of the antenna pattern is independent of distance
DThe region where radiated field strengths are constant

45. - E9C10

Which of the following describes a Zepp antenna?

SelectAnswer
AAn omni-directional antenna commonly used for satellite communications
BAn end-fed dipole antenna
CA vertical array capable of quickly changing the direction of maximum radiation by changing phasing lines
DA dipole constructed from zip cord

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

47. - E9E10

Which of these choices is an effective way to match an antenna with a 100-ohm feed point impedance to a 50-ohm coaxial cable feed line?

SelectAnswer
AInsert a 1/4-wavelength piece of 75-ohm coaxial cable transmission line in series between the antenna terminals and the 50-ohm feed cable
BConnect a 1/4-wavelength open stub of 300-ohm twinlead in parallel with the coaxial feed line where it connects to the antenna
CInsert a 1/2 wavelength piece of 300-ohm twinlead in series between the antenna terminals and the 50-ohm feed cable
DConnect a 1/2 wavelength shorted stub of 75-ohm cable in parallel with the 50-ohm cable where it attaches to the antenna

48. - E9F03

Why is the physical length of a coaxial cable transmission line shorter than its electrical length?

SelectAnswer
AThe characteristic impedance is higher in a parallel feed line
BThe surge impedance is higher in a parallel feed line
CElectrical signals move more slowly in a coaxial cable than in air
DSkin effect is less pronounced in the coaxial cable

49. - E9G01

Which of the following can be calculated using a Smith chart?

SelectAnswer
ARadio propagation
BImpedance along transmission lines
CAntenna radiation pattern
DRadiation resistance

50. - E9H01

When constructing a Beverage antenna, which of the following factors should be included in the design to achieve good performance at the desired frequency?

SelectAnswer
AIt should be configured as a four-sided loop
BIts overall length must not exceed 1/4 wavelength
CIt must be mounted more than 1 wavelength above ground
DIt should be one or more wavelengths long

Figure E7-2