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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
APolyethylene
BPolytetrafluoroethylene
CPolychlorinated biphenyls
DPolymorphic silicon

2. - E1A10

If an amateur station is installed aboard a ship or aircraft, what condition must be met before the station is operated?

SelectAnswer
AThe amateur operator must have an FCC Marine or Aircraft endorsement on his or her amateur license
BThe amateur station must have a power supply that is completely independent of the main ship or aircraft power supply
CThe amateur station operator must agree not to transmit when the main radio of the ship or aircraft is in use
DIts operation must be approved by the master of the ship or the pilot in command of the aircraft

3. - E1B02

Which of the following is an acceptable bandwidth for Digital Radio Mondiale (DRM) based voice or SSTV digital transmissions made on the HF amateur bands?

SelectAnswer
A15 kHz
B20 kHz
C10 kHz
D3 kHz

4. - E1C05

When may an automatically controlled station originate third party communications?

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

5. - E1D04

Which of the following is required in the identification transmissions from a balloon-borne telemetry station?

SelectAnswer
AThe output power of the balloon transmitter
BThe station's six-character Maidenhead grid locator
CAll these choices are correct
DCall sign

6. - E1E05

What is the minimum passing score on all amateur operator license examinations?

SelectAnswer
AMinimum passing score of 77%
BMinimum passing score of 70%
CMinimum passing score of 80%
DMinimum passing score of 74%

7. - E1F01

On what frequencies are spread spectrum transmissions permitted?

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

8. - E2A04

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

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

9. - E2B04

How is color information sent in analog SSTV?

SelectAnswer
AColor is amplitude modulated on the frequency modulated intensity signal
BColor lines are sent sequentially
CColor information is sent on a 2.8 kHz subcarrier
DColor is sent in a color burst at the end of each line

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 weak signal segment of the band, with most of the activity near the calling frequency
CAt the top of each band, usually in a segment reserved for contests
DIn the middle of each band, usually on the national calling frequency

11. - E2D06

Which of the following describes a method of establishing EME contacts?

SelectAnswer
AHigh-speed CW identification to avoid fading
BTime synchronous transmissions alternately from each station
CJudging optimum transmission times by monitoring beacons reflected from the moon
DStoring and forwarding digital messages

12. - E2E03

How is the timing of FT4 contacts organized?

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

13. - E3A07

Atmospheric ducts capable of propagating microwave signals often form over what geographic feature?

SelectAnswer
AMountain ranges
BForests
CUrban areas
DBodies of water

14. - E3B11

At what time of day can sporadic E propagation occur?

SelectAnswer
AAny time
BOnly in hours of darkness
COnly around sunset
DOnly around sunset and sunrise

15. - E3C04

What does the value of Bz (B sub Z) represent?

SelectAnswer
ADuration of long-delayed echoes
BDirection and strength of the interplanetary magnetic field
CGeomagnetic field stability
DCritical frequency for vertical transmissions

16. - E4A11

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

SelectAnswer
ALoosely couple the antenna and a dummy load to the analyzer
BConnect the analyzer via a high-impedance transformer to the antenna
CConnect the antenna feed line directly to the analyzer's connector
DLoosely couple the analyzer near the antenna base

17. - E4B05

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

SelectAnswer
A50 ohms through 1/8 wavelength, 1/4 wavelength, and 1/2 wavelength of coaxial cable
BShort circuit, open circuit, and 50 ohms
C50 ohms, 75 ohms, and 90 ohms
DShort circuit, open circuit, and resonant circuit

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

19. - E4D04

Which of the following may reduce or eliminate intermodulation interference in a repeater caused by another transmitter operating in close proximity?

SelectAnswer
AUtilizing a Class C final amplifier
BA band-pass filter in the feed line between the transmitter and receiver
CUtilizing a Class D final amplifier
DA properly terminated circulator at the output of the repeater's transmitter

20. - E4E07

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

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

21. - E5A10

How is the Q of an RLC series resonant circuit calculated?

SelectAnswer
AResistance divided by the reactance of either the inductance or capacitance
BReactance of either the inductance or capacitance multiplied by the resistance
CReactance of either the inductance or capacitance divided by the resistance
DReactance of the inductance multiplied by the reactance of the capacitance

22. - E5B03

How is impedance in polar form converted to an equivalent admittance?

SelectAnswer
ASquare the magnitude and subtract 90 degrees from the angle
BTake the square root of the magnitude and add 180 degrees to the angle
CTake the reciprocal of the angle and change the sign of the magnitude
DTake the reciprocal of the magnitude and change the sign of the angle

23. - E5C03

Which of the following represents an inductive reactance in polar coordinates?

SelectAnswer
AA negative magnitude
BA positive magnitude
CA negative phase angle
DA positive phase angle

24. - E5D07

How many watts are consumed in a circuit having a power factor of 0.71 if the apparent power is 500VA?

SelectAnswer
A1.42 mW
B355 W
C252 W
D704 W

25. - E6A12

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

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

26. - E6B08

Which of the following is a Schottky barrier diode?

SelectAnswer
AMetal-semiconductor junction
BThermionic emission diode
CElectrolytic rectifier
DPIN junction

27. - E6C10

In Figure E6-3, what is the schematic symbol for a NOR gate?

SelectAnswer
A2
B1
C3
D4

28. - E6D01

Why should core saturation of an impedance matching transformer be avoided?

SelectAnswer
AHarmonics and distortion could result
BRF susceptance would increase
CMagnetic flux would increase with frequency
DTemporary changes of the core permeability could result

29. - E6E03

Which of the following materials is likely to provide the highest frequency of operation when used in MMICs?

SelectAnswer
ASilicon
BSilicon nitride
CGallium nitride
DSilicon dioxide

30. - E6F04

What is the photovoltaic effect?

SelectAnswer
AThe tendency of a battery to discharge when exposed to light
BThe conversion of light to electrical energy
CThe conversion of voltage to current when exposed to light
DThe conversion of electrical energy to mechanical energy

31. - E7A10

What is a truth table?

SelectAnswer
AA table of logic symbols that indicate the high logic states of an op-amp
BA table of logic symbols that indicate the logic states of an op-amp
CA list of inputs and corresponding outputs for a digital device
DA diagram showing logic states when the digital device output is true

32. - E7B12

What type of amplifier circuit is shown in Figure E7-1?

SelectAnswer
ACommon emitter
BEmitter follower
CCommon collector
DCommon base

33. - E7C11

Which of the following describes a receiving filter's ability to reject signals occupying an adjacent channel?

SelectAnswer
APhase response
BShape factor
CNoise factor
DPassband ripple

34. - E7D10

What is the primary reason that a high-frequency switching type high-voltage power supply can be both less expensive and lighter in weight than a conventional power supply?

SelectAnswer
AThe inverter design does not require any output filtering
BIt uses a diode bridge rectifier for increased output
CThe high frequency inverter design uses much smaller transformers and filter components for an equivalent power output
DIt uses a large power factor compensation capacitor to recover power from the unused portion of the AC cycle

35. - E7E05

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

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

36. - E7F13

What is the function of taps in a digital signal processing filter?

SelectAnswer
AProvide access for debugging software
BProvide incremental signal delays for filter algorithms
CTo reduce excess signal pressure levels
DSelect the point at which baseband signals are generated

37. - E7G03

What is the typical input impedance of an op-amp?

SelectAnswer
AVery high
BVery low
C1000 ohms
D100 ohms

38. - E7H05

How is positive feedback supplied in a Pierce oscillator?

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

39. - E8A06

What is the approximate ratio of PEP-to-average power in a typical single-sideband phone signal?

SelectAnswer
A100 to 1
B2.5 to 1
C25 to 1
D1 to 1

40. - E8B04

What is the modulation index of an FM-phone signal having a maximum carrier deviation of plus or minus 6 kHz when modulated with a 2 kHz modulating frequency?

SelectAnswer
A2000
B6000
C1/3
D3

41. - E8C09

Which digital code allows only one bit to change between sequential code values?

SelectAnswer
AGray code
BExcess 3 code
CExtended Binary Coded Decimal Interchange Code
DBinary Coded Decimal Code

42. - E8D10

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

SelectAnswer
ABaudot 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
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 6 data bits per character, ASCII uses 7 or 8; Baudot has no letters/figures shift code, ASCII uses 2 letters/figures shift codes
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. - E9A05

What is included in the total resistance of an antenna system?

SelectAnswer
ATransmission-line resistance plus radiation resistance
BRadiation resistance plus transmission resistance
CRadiation resistance plus space impedance
DRadiation resistance plus loss resistance

44. - E9B02

In the antenna radiation pattern shown in Figure E9-1, what is the front-to-back ratio?

SelectAnswer
A14 dB
B18 dB
C36 dB
D24 dB

45. - E9C11

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

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

46. - E9D05

What usually occurs if a Yagi antenna is designed solely for maximum forward gain?

SelectAnswer
AThe front-to-back ratio decreases
BThe front-to-back ratio increases
CThe SWR is reduced
DThe frequency response is widened over the whole frequency band

47. - E9E02

What is the name of an antenna matching system that matches an unbalanced feed line to an antenna by feeding the driven element both at the center of the element and at a fraction of a wavelength to one side of center?

SelectAnswer
AThe gamma match
BThe stub match
CThe epsilon match
DThe delta match

48. - E9F08

Which of the following is a significant difference between foam dielectric coaxial cable and solid dielectric cable, assuming all other parameters are the same?

SelectAnswer
AFoam dielectric has higher velocity factor
BAll these choices are correct
CFoam dielectric has lower safe operating voltage limits
DFoam dielectric has lower loss per unit of length

49. - E9G02

What type of coordinate system is used in a Smith chart?

SelectAnswer
AVoltage lines and current chords
BResistance lines and reactance chords
CVoltage circles and current arcs
DResistance circles and reactance arcs

50. - E9H04

What is an advantage of placing a grounded electrostatic shield around a small loop direction-finding antenna?

SelectAnswer
AIt adds capacitive loading, increasing the bandwidth of the antenna
BIt eliminates tracking errors caused by strong out-of-band signals
CIt increases signal strength by providing a better match to the feed line
DIt eliminates unbalanced capacitive coupling to the surroundings, improving the nulls

Figure E6-3

Figure E7-1

Figure E9-1