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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
A50 watts PEP
B100 watts PEP
C1 watt EIRP
D5 watts EIRP

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

4. - E1C05

When may an automatically controlled station originate third party communications?

SelectAnswer
ANever
BOnly when transmitting RTTY or data emissions
CWhen approved by the National Telecommunication and Information Administration
DWhen agreed upon by the sending or receiving station

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 message forwarding station or automatically controlled digital station
DA local repeater or linked repeater station

6. - E1E03

What is a Volunteer Examiner Coordinator?

SelectAnswer
AA person who has volunteered to prepare amateur operator license examinations
BA person who has volunteered to administer amateur operator license examinations
CAn organization that has entered into an agreement with the FCC to coordinate, prepare, and administer amateur operator license examinations
DThe person who has entered into an agreement with the FCC to be the VE session manager

7. - E1F01

On what frequencies are spread spectrum transmissions permitted?

SelectAnswer
AOnly on amateur frequencies above 222 MHz
BOnly on amateur frequencies above 144 MHz
COnly on amateur frequencies above 50 MHz
DOnly on amateur frequencies above 420 MHz

8. - E2A06

What are Keplerian elements?

SelectAnswer
AHigh-emission heater filaments used in magnetron tubes
BPhase reversing elements in a Yagi antenna
CParameters that define the orbit of a satellite
DEncrypting codes used for spread spectrum modulation

9. - E2B01

How many times per second is a new frame transmitted in a fast-scan (NTSC) television system?

SelectAnswer
A90
B30
C60
D120

10. - E2C07

What is the Cabrillo format?

SelectAnswer
AThe most common set of contest rules
BThe rules of order for meetings between contest sponsors
CA method of exchanging information during a contest QSO
DA standard for submission of electronic contest logs

11. - E2D01

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

SelectAnswer
AMSK144
BWSPR
CHellschreiber
DAPRS

12. - E2E01

Which of the following types of modulation is common for data emissions below 30 MHz?

SelectAnswer
ADTMF tones modulating an FM signal
BSpread spectrum
CFSK
DPulse modulation

13. - E3A05

Tropospheric propagation of microwave signals often occurs in association with what phenomenon?

SelectAnswer
AWarm and cold fronts
BSprites and jets
CLightning discharges
DGrayline

14. - E3B07

What happens to linearly polarized radio waves that split into ordinary and extraordinary waves in the ionosphere?

SelectAnswer
AThey are bent toward the magnetic poles
BThey become elliptically polarized
CThey become phase locked
DThey become depolarized

15. - E3C07

Which of the following descriptors indicates the greatest solar flare intensity?

SelectAnswer
AClass A
BClass M
CClass X
DClass B

16. - E4A07

Which of the following is an advantage of using an antenna analyzer compared to an SWR bridge to measure antenna SWR?

SelectAnswer
AAll these choices are correct
BAntenna analyzers do not need an external RF source
CAntenna analyzers display a time-varying representation of the modulation envelope
DAntenna analyzers automatically tune your antenna for resonance

17. - E4B05

What three test loads are used to calibrate an RF vector network analyzer?

SelectAnswer
AShort circuit, open circuit, and 50 ohms
B50 ohms, 75 ohms, and 90 ohms
CShort circuit, open circuit, and resonant circuit
D50 ohms through 1/8 wavelength, 1/4 wavelength, and 1/2 wavelength of coaxial cable

18. - E4C04

What is the noise figure of a receiver?

SelectAnswer
AThe ratio of the noise bandwidth in hertz to the theoretical bandwidth of a resistive network
BThe ratio of thermal noise to atmospheric noise
CThe ratio of atmospheric noise to phase noise
DThe ratio in dB of the noise generated by the receiver to the theoretical minimum noise

19. - E4D08

What causes intermodulation in an electronic circuit?

SelectAnswer
AToo little gain
BPositive feedback
CNonlinear circuits or devices
DLack of neutralization

20. - E4E11

What could cause local AM broadcast band signals to combine to generate spurious signals in the MF or HF bands?

SelectAnswer
ANearby corroded metal joints are mixing and re-radiating the broadcast signals
BOne or more of the broadcast stations is transmitting an over-modulated signal
CYou are receiving skywave signals from a distant station
DYour station receiver IF amplifier stage is defective

21. - E5A15

Which of the following increases Q for inductors and capacitors?

SelectAnswer
ALower losses
BHigher self-resonant frequency
CLower self-resonant frequency
DLower reactance

22. - E5B02

What letter is commonly used to represent susceptance?

SelectAnswer
AB
BY
CX
DG

23. - E5C11

Which point in Figure E5-1 best represents the impedance of a series circuit consisting of a 300-ohm resistor and an 18-microhenry inductor at 3.505 MHz?

SelectAnswer
APoint 7
BPoint 3
CPoint 1
DPoint 8

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 dissipated as kinetic energy in the circuit
CIt is dissipated as heat in the circuit
DIt is repeatedly exchanged between the associated magnetic and electric fields, but is not dissipated

25. - E6A07

Which of the following indicates that a silicon NPN junction transistor is biased on?

SelectAnswer
ABase-to-emitter resistance of approximately 0.6 to 0.7 ohms
BBase-to-emitter voltage of approximately 6 to 7 volts
CBase-to-emitter resistance of approximately 6 to 7 ohms
DBase-to-emitter voltage of approximately 0.6 to 0.7 volts

26. - E6B03

What type of bias is required for an LED to emit light?

SelectAnswer
AInductive bias
BReverse bias
CForward bias
DZero bias

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
CIt has the high input impedance of CMOS and the low output impedance of bipolar transistors
DAll these choices are correct

28. - E6D03

Which of the following is an aspect of the piezoelectric effect?

SelectAnswer
AMechanical deformation of material by the application of a magnetic field
BGeneration of electrical energy in the presence of light
CIncreased conductivity in the presence of light
DMechanical deformation of material by the application of a voltage

29. - E6E04

Which is the most common input and output impedance of circuits that use MMICs?

SelectAnswer
A50 ohms
B10 ohms
C450 ohms
D300 ohms

30. - E6F08

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

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

31. - E7A04

How many flip-flops are required to divide a signal frequency by 4?

SelectAnswer
A2
B4
C8
D1

32. - E7B06

Which of the following amplifier types reduces even-order harmonics?

SelectAnswer
APush-pull
BPush-push
CClass AB
DClass C

33. - E7C04

How does an impedance-matching circuit transform a complex impedance to a resistive impedance?

SelectAnswer
AIt introduces negative resistance to cancel the resistive part of impedance
BIt cancels the reactive part of the impedance and changes the resistive part to a desired value
CReactive currents are dissipated in matched resistances
DIt introduces transconductance to cancel the reactive part of impedance

34. - E7D11

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

SelectAnswer
AMaintains nearly constant output impedance over a wide range of load current
BProvides a stable input impedance over a wide range of source voltage
CMaintains nearly constant output voltage over a wide range of load current
DPermits a wide range of output voltage settings

35. - E7E05

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

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

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. - E7G07

What magnitude of voltage gain can be expected from the circuit in Figure E73 when R1 is 10 ohms and RF is 470 ohms?

SelectAnswer
A0.21
B47
C94
D24

38. - E7H13

Which of the following is a technique for providing highly accurate and stable oscillators needed for microwave transmission and reception?

SelectAnswer
AUse a GPS signal reference
BAll these choices are correct
CUse a temperature-controlled high Q dielectric resonator
DUse a rubidium stabilized reference oscillator

39. - E8A04

What is "dither" with respect to analog-to-digital converters?

SelectAnswer
AA small amount of noise added to the input signal to allow more precise representation of a signal over time
BAn error caused by irregular quantization step size
CAn abnormal condition where the converter cannot settle on a value to represent the signal
DA method of decimation by randomly skipping samples

40. - E8B09

What is deviation ratio?

SelectAnswer
AThe ratio of the carrier center frequency to the audio modulating frequency
BThe ratio of the maximum carrier frequency deviation to the highest audio modulating frequency
CThe ratio of the audio modulating frequency to the center carrier frequency
DThe ratio of the highest audio modulating frequency to the average audio modulating frequency

41. - E8C06

What is the bandwidth of a 170-hertz shift, 300-baud ASCII transmission?

SelectAnswer
A0.3 kHz
B0.5 kHz
C0.1 Hz
D1.0 kHz

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

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
A2000 watts
B126 watts
C317 watts
D300 watts

44. - E9B07

How does the total amount of radiation emitted by a directional gain antenna compare with the total amount of radiation emitted from a theoretical isotropic antenna, assuming each is driven by the same amount of power?

SelectAnswer
AThey are the same
BThe total amount of radiation from the directional antenna is stronger by its front-to-back ratio
CThe total amount of radiation from the directional antenna is increased by the gain of the antenna
DThe radiation from the isotropic antenna is 2.15 dB stronger than that from the directional antenna

45. - E9C11

How is the far-field elevation pattern of a vertically polarized antenna affected by being mounted over seawater versus soil?

SelectAnswer
AThe low-angle radiation increases
BAdditional higher vertical angle lobes will appear
CThe low-angle radiation decreases
DFewer vertical angle lobes will be present

46. - E9D11

Which of the following conductors would be best for minimizing losses in a station's RF ground system?

SelectAnswer
ASolid wire
BWide flat copper strap
CStranded wire
DResistive wire, such as spark plug wire

47. - E9E07

What parameter describes the interactions at the load end of a mismatched transmission line?

SelectAnswer
AReflection coefficient
BDielectric constant
CVelocity factor
DCharacteristic impedance

48. - E9F12

What impedance does a 1/4-wavelength transmission line present to a generator when the line is open at the far end?

SelectAnswer
AVery low impedance
BThe same as the input impedance to the generator
CThe same as the characteristic impedance of the line
DVery high impedance

49. - E9G03

Which of the following is often determined using a Smith chart?

SelectAnswer
AImpedance and SWR values in transmission lines
BTrigonometric functions
CBeam headings and radiation patterns
DSatellite azimuth and elevation bearings

50. - E9H03

What is Receiving Directivity Factor (RDF)?

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

Figure E5-1