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

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1. - E0A10

What toxic material may be present in some electronic components such as high voltage capacitors and transformers?

SelectAnswer
APolymorphic silicon
BPolyethylene
CPolytetrafluoroethylene
DPolychlorinated biphenyls

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 an isotropic radiator
D50 watts PEP effective radiated power relative to a dipole

3. - E1B10

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

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

4. - E1C10

What is the permitted mean power of any spurious emission relative to the mean power of the fundamental emission from a station transmitter or external RF amplifier installed after January 1, 2003 and transmitting on a frequency below 30 MHz?

SelectAnswer
AAt least 63 dB below
BAt least 43 dB below
CAt least 53 dB below
DAt least 73 dB below

5. - E1D12

Which of the following amateur stations may transmit one-way communications?

SelectAnswer
AAll these choices are correct
BA space station, beacon station, or telecommand station
CA local repeater or linked repeater station
DA message forwarding station or automatically controlled digital station

6. - E1E07

What should a VE do if a candidate fails to comply with the examiner's instructions during an amateur operator license examination?

SelectAnswer
AImmediately terminate the candidate's examination
BWarn the candidate that continued failure to comply will result in termination of the examination
CImmediately terminate everyone's examination and close the session
DAllow the candidate to complete the examination, but invalidate the results

7. - E1F09

Which of the following conditions apply when transmitting spread spectrum emissions?

SelectAnswer
AThe transmission must not be used to obscure the meaning of any communication
BThe transmitting station must be in an area regulated by the FCC or in a country that permits SS emissions
CA station transmitting SS emission must not cause harmful interference to other stations employing other authorized emissions
DAll these choices are correct

8. - E2A06

What are Keplerian elements?

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

9. - E2B03

How is an interlaced scanning pattern generated in a fast-scan (NTSC) television system?

SelectAnswer
ABy scanning odd numbered lines in one field and even numbered lines in the next
BBy scanning two fields simultaneously
CBy scanning each field from bottom to top
DBy scanning lines from left to right in one field and right to left in the next

10. - E2C02

Which of the following best describes the term self-spotting? in connection with HF contest operating?

SelectAnswer
AThe often-prohibited practice of posting one's own call sign and frequency on a spotting network
BAn automatic method for rapidly zero beating or tuning to a station's frequency before calling that station
CA manual technique for rapidly zero beating or tuning to a station's frequency before calling that station
DThe acceptable practice of manually posting the call signs of stations on a spotting network

11. - E2D03

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

SelectAnswer
AJT65
BMSK144
COlivia
DPACTOR III

12. - E2E08

Which of the following HF digital modes can be used to transfer binary files?

SelectAnswer
AHellschreiber
BAMTOR
CRTTY
DPACTOR

13. - E3A11

What is a typical range for tropospheric propagation of microwave signals?

SelectAnswer
A2500 miles
B100 miles to 300 miles
C1200 miles
D10 miles to 50 miles

14. - E3B12

What is the primary characteristic of chordal hop propagation?

SelectAnswer
ASignals reflected back toward the transmitting station
BSuccessive ionospheric refractions without an intermediate reflection from the ground
CPropagation away from the great circle bearing between stations
DPropagation across the geomagnetic equator

15. - E3C11

What does VOACAP software model?

SelectAnswer
AAC current and impedance
BAC voltage and impedance
CHF propagation
DVHF radio propagation

16. - E4A11

How should an antenna analyzer be connected when measuring antenna resonance and feed point impedance?

SelectAnswer
AConnect the antenna feed line directly to the analyzer's connector
BLoosely couple the analyzer near the antenna base
CLoosely couple the antenna and a dummy load to the analyzer
DConnect the analyzer via a high-impedance transformer to the antenna

17. - E4B10

Which of the following methods measures intermodulation distortion in an SSB transmitter?

SelectAnswer
AModulate the transmitter using two AF signals having non-harmonically related frequencies and observe the RF output with a spectrum analyzer
BModulate the transmitter using two AF signals having harmonically related frequencies and observe the RF output with a peak reading wattmeter
CModulate the transmitter using two RF signals having harmonically related frequencies and observe the RF output with a logic analyzer
DModulate the transmitter using two RF signals having non-harmonically related frequencies and observe the RF output with a spectrum analyzer

18. - E4C11

Why can an attenuator be used to reduce receiver overload on the lower frequency HF bands with little or no impact on signal-to-noise ratio?

SelectAnswer
ASignals are attenuated separately from the noise
BAtmospheric noise is generally greater than internally generated noise even after attenuation
CThe attenuator has a low-pass filter to increase the strength of lower frequency signals
DThe attenuator has a noise filter to suppress interference

19. - E4D10

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

SelectAnswer
ASignals less than 40 dBm will not generate audible third-order intermodulation products
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
CThe receiver can tolerate signals up to 40 dB above the noise floor without producing third-order intermodulation products
DA pair of 1 mW input signals will produce a third-order intermodulation product that is 40 dB stronger than the input signal

20. - E4E06

What is one type of electrical interference that might be caused by a nearby personal computer?

SelectAnswer
AThe appearance of unstable modulated or unmodulated signals at specific frequencies
BA whining type noise that continually pulses off and on
CA clicking noise at intervals of a few seconds
DA loud AC hum in the audio output of your station receiver

21. - E5A15

Which of the following increases Q for inductors and capacitors?

SelectAnswer
AHigher self-resonant frequency
BLower reactance
CLower losses
DLower self-resonant frequency

22. - E5B09

What is the relationship between the AC current through a capacitor and the voltage across a capacitor?

SelectAnswer
ACurrent leads voltage by 90 degrees
BVoltage and current are 180 degrees out of phase
CVoltage and current are in phase
DVoltage leads current by 90 degrees

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
C25 ohms resistance in series with 50 ohms inductive reactance
D50 ohms resistance in series with 25 ohms inductive reactance

24. - E5D09

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

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

25. - E6A12

Why do many MOSFET devices have internally connected Zener diodes on the gates?

SelectAnswer
ATo protect the substrate from excessive voltages
BTo reduce the chance of static damage to the gate
CTo provide a voltage reference for the correct amount of reverse-bias gate voltage
DTo keep the gate voltage within specifications and prevent the device from overheating

26. - E6B06

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

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

27. - E6C04

Which of the following is an advantage of BiCMOS logic?

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

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 require fewer turns to produce a given inductance
CPowdered-iron cores generally maintain their characteristics at higher currents
DPowdered-iron cores generally have greater initial permeability

29. - E6E07

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

SelectAnswer
AMicrostrip
BCircular waveguide
CMiniature coax
DParallel wire

30. - E6F07

What is a solid-state relay?

SelectAnswer
AA mechanical relay that latches in the on or off state each time it is pulsed
BA device that uses semiconductors to implement the functions of an electromechanical relay
CA semiconductor passive delay line
DA relay using transistors to drive the relay coil

31. - E7A06

What is a characteristic of a monostable multivibrator?

SelectAnswer
AIt maintains a constant output voltage, regardless of variations in the input voltage
BIt produces a continuous square wave oscillating between 1 and 0
CIt switches momentarily to the opposite binary state and then returns to its original state after a set time
DIt stores one bit of data in either a 0 or 1 state

32. - E7B10

In Figure E7-1, what is the purpose of R1 and R2?

SelectAnswer
AVoltage divider bias
BSelf bias
CFeedback
DLoad resistors

33. - E7C01

How are the capacitors and inductors of a low-pass filter Pi-network arranged between the network's input and output?

SelectAnswer
ATwo capacitors are in series between the input and output, and an inductor is connected between the two capacitors and ground
BTwo inductors are in series between the input and output, and a capacitor is connected between the two inductors and ground
CAn inductor is connected between the input and ground, another inductor is connected between the output and ground, and a capacitor is connected between the input and output
DA capacitor is connected between the input and ground, another capacitor is connected between the output and ground, and an inductor is connected between input and output

34. - E7D11

What is the function of the pass transistor in a linear voltage regulator circuit?

SelectAnswer
AMaintains nearly constant output voltage over a wide range of load current
BMaintains nearly constant output impedance over a wide range of load current
CPermits a wide range of output voltage settings
DProvides a stable input impedance over a wide range of source voltage

35. - E7E06

Why is de-emphasis commonly used in FM communications receivers?

SelectAnswer
AFor higher efficiency
BFor compatibility with transmitters using phase modulation
CTo reduce impulse noise reception
DTo remove third-order distortion products

36. - E7F14

Which of the following would allow a digital signal processing filter to create a sharper filter response?

SelectAnswer
ADouble-precision math routines
BComplex phasor representations
CMore taps
DHigher data rate

37. - E7G05

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

SelectAnswer
ARestrict Q but increase gain
BRestrict gain but increase Q
CIncrease both gain and Q
DRestrict both gain and Q

38. - E7H07

How can an oscillator's microphonic responses be reduced?

SelectAnswer
AMechanically isolate the oscillator circuitry from its enclosure
BIncrease the bias voltage
CReduce noise on the oscillator's power supply
DUse NP0 capacitors

39. - E8A08

Why would a direct or flash conversion analog-to-digital converter be useful for a software defined radio?

SelectAnswer
AImmunity to out-of-sequence coding reduces spurious responses
BAll these choices are correct
CVery low power consumption decreases frequency drift
DVery high speed allows digitizing high frequencies

40. - E8B11

What is digital time division multiplexing?

SelectAnswer
ATwo or more signals are arranged to share discrete time slots of a data transmission
BTwo or more data streams share the same channel by transmitting time of transmission as the sub-carrier
CTwo or more signals are quadrature modulated to increase bandwidth efficiency
DTwo or more data streams are assigned to discrete sub-carriers on an FM transmitter

41. - E8C01

How is Forward Error Correction implemented?

SelectAnswer
ABy varying the frequency shift of the transmitted signal according to a predefined algorithm
BBy transmitting a special algorithm to the receiving station along with the data characters
CBy the receiving station repeating each block of three data characters
DBy transmitting extra data that may be used to detect and correct transmission errors

42. - E8D09

What is considered an acceptable maximum IMD level for an idling PSK signal?

SelectAnswer
A-20 dB
B+15 dB
C-30 dB
D+10 dB

43. - E9A13

What term describes station output, taking into account all gains and losses?

SelectAnswer
AEffective radiated power
BApparent power
CPower factor
DHalf-power bandwidth

44. - E9B08

What is the far field of an antenna?

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

45. - E9C13

How does the radiation pattern of a horizontally polarized 3-element beam antenna vary with increasing height above ground?

SelectAnswer
AThe horizontal beamwidth increases
BThe horizontal beamwidth decreases
CThe takeoff angle of the lowest elevation lobe decreases
DThe takeoff angle of the lowest elevation lobe increases

46. - E9D10

What happens to feed-point impedance at the base of a fixed length HF mobile antenna when operated below its resonant frequency?

SelectAnswer
AThe radiation resistance increases and the capacitive reactance increases
BThe radiation resistance increases and the capacitive reactance decreases
CThe radiation resistance decreases and the capacitive reactance decreases
DThe radiation resistance decreases and the capacitive reactance increases

47. - E9E06

Which of these feed line impedances would be suitable for constructing a quarter-wave Q-section for matching a 100-ohm loop to 50-ohm feed line?

SelectAnswer
A75 ohms
B50 ohms
C450 ohms
D62 ohms

48. - E9F01

What is the velocity factor of a transmission line?

SelectAnswer
AThe index of shielding for coaxial cable
BThe velocity of the wave in the transmission line multiplied by the velocity of light in a vacuum
CThe velocity of the wave in the transmission line divided by the velocity of light in a vacuum
DThe ratio of the characteristic impedance of the line to the terminating impedance

49. - E9G01

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

SelectAnswer
AAntenna radiation pattern
BRadiation resistance
CImpedance along transmission lines
DRadio propagation

50. - E9H09

What is a Pennant antenna?

SelectAnswer
AA stealth antenna built to look like a flagpole
BA form of rhombic antenna terminated in a variable capacitor to provide frequency diversity
CA small, vertically oriented receiving antenna consisting of a triangular loop terminated in approximately 900 ohms
DA four-element, high-gain vertical array invented by George Pennant

Figure E7-1