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

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1. - E0A08

What does SAR measure?

SelectAnswer
AThe rate of RF energy reflected from stationary terrain
BSignal Amplification Rating
CThe rate at which RF energy is absorbed by the body
DSynthetic Aperture Ratio of the human body

2. - E1A02

When using a transceiver that displays the carrier frequency of phone signals, which of the following displayed frequencies represents the lowest frequency at which a properly adjusted LSB emission will be totally within the band?

SelectAnswer
A300 Hz above the lower band edge
B1 kHz above the lower band edge
C3 kHz above the lower band edge
DThe exact lower band edge

3. - E1B05

What is the National Radio Quiet Zone?

SelectAnswer
AAn area in New Mexico surrounding the White Sands Test Area
BAn area surrounding the National Radio Astronomy Observatory
CAn area in Puerto Rico surrounding the Arecibo Radio Telescope
DAn area in Florida surrounding Cape Canaveral

4. - E1C13

What notifications must be given before transmitting on the 630 meter or 2200 meter bands?

SelectAnswer
AAn environmental impact statement must be filed with the Department of the Interior
BOperators must inform the Utilities Technology Council (UTC) of their call sign and coordinates of the station
CA special endorsement must be requested from the FCC
DOperators must inform the FAA of their intent to operate, giving their call sign and distance to the nearest runway

5. - E1D12

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

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

6. - E1E02

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

SelectAnswer
AThe FCC
BThe VECs
CThe VEs
DThe ARRL

7. - E1F04

Which of the following geographic descriptions approximately describes "Line A"?

SelectAnswer
AA line roughly parallel to and east of the U.S. Pacific coastline
BA line roughly parallel to and west of the U.S. Atlantic coastline
CA line roughly parallel to and south of the border between the U.S. and Canada
DA line roughly parallel to and north of the border between the U.S. and Mexico

8. - E2A02

Which of the following occurs when a satellite is using an inverting linear transponder?

SelectAnswer
AUpper sideband on the uplink becomes lower sideband on the downlink, and vice versa
BSignal position in the band is reversed
CDoppler shift is reduced because the uplink and downlink shifts are in opposite directions
DAll these choices are correct

9. - E2B05

Which of the following describes the use of vestigial sideband in analog fast-scan TV transmissions?

SelectAnswer
AThe vestigial sideband carries the audio information
BVestigial sideband provides high frequency emphasis to sharpen the picture
CThe vestigial sideband contains chroma information
DVestigial sideband reduces bandwidth while allowing for simple video detector circuitry

10. - E2C10

Why might a DX station state that they are listening on another frequency?

SelectAnswer
ATo separate the calling stations from the DX station
BBecause the DX station may be transmitting on a frequency that is prohibited to some responding stations
CAll these choices are correct
DTo improve operating efficiency by reducing interference

11. - E2D07

What digital protocol is used by APRS?

SelectAnswer
A802.11
BAMTOR
CAX.25
DPACTOR

12. - E2E07

Which of the following is a possible reason that attempts to initiate contact with a digital station on a clear frequency are unsuccessful?

SelectAnswer
AThe protocol version you are using is not supported by the digital station
BAll these choices are correct
CYour transmit frequency is incorrect
DAnother station you are unable to hear is using the frequency

13. - E3A09

Which of the following frequency ranges is most suited for meteor scatter communications?

SelectAnswer
A10 MHz - 14 MHz
B28 MHz - 148 MHz
C1.8 MHz - 1.9 MHz
D220 MHz - 450 MHz

14. - E3B10

Why is chordal hop propagation desirable?

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

15. - E3C08

What does the space weather term G5 mean?

SelectAnswer
AModerate solar wind
BVery low solar activity
CWaning sunspot numbers
DAn extreme geomagnetic storm

16. - E4A05

What is the purpose of the prescaler function on a frequency counter?

SelectAnswer
AIt multiplies a higher frequency signal so a low-frequency counter can display the operating frequency
BIt amplifies low-level signals for more accurate counting
CIt divides a higher frequency signal so a low-frequency counter can display the input frequency
DIt prevents oscillation in a low-frequency counter circuit

17. - E4B07

What do the subscripts of S parameters represent?

SelectAnswer
ARelative quality of the data
BFrequency order of the measurements
CThe relative time between measurements
DThe port or ports at which measurements are made

18. - E4C04

What is the noise figure of a receiver?

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

19. - E4D09

What is the purpose of the preselector in a communications receiver?

SelectAnswer
ATo increase rejection of signals outside the desired band
BTo store often-used frequencies
CTo allow selection of the optimum RF amplifier device
DTo provide a range of AGC time constants

20. - E4E09

What undesirable effect can occur when using an IF noise blanker?

SelectAnswer
AThe audio frequency bandwidth of the received signal might be compressed
BNearby signals may appear to be excessively wide even if they meet emission standards
CFM signals can no longer be demodulated
DReceived audio in the speech range might have an echo effect

21. - E5A02

What is resonance in an LC or RLC circuit?

SelectAnswer
AThe lowest frequency that will pass current
BThe frequency at which the reactive impedance equals the resistive impedance
CThe highest frequency that will pass current
DThe frequency at which the capacitive reactance equals the inductive reactance

22. - E5B02

What letter is commonly used to represent susceptance?

SelectAnswer
AB
BY
CG
DX

23. - E5C10

Which point on Figure E5-1 best represents the impedance of a series circuit consisting of a 400-ohm resistor and a 38-picofarad capacitor at 14 MHz?

SelectAnswer
APoint 5
BPoint 2
CPoint 6
DPoint 4

24. - E5D03

What is microstrip?

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

25. - E6A04

What is the name given to an impurity atom that adds holes to a semiconductor crystal structure?

SelectAnswer
AInsulator impurity
BAcceptor impurity
CDonor impurity
DN-type impurity

26. - E6B11

What is used to control the attenuation of RF signals by a PIN diode?

SelectAnswer
AReverse voltage larger than the RF signal
BForward DC bias current
CCapacitance of an RF coupling capacitor
DA sub-harmonic pump signal

27. - E6C01

What is the function of hysteresis in a comparator?

SelectAnswer
ATo allow the comparator to be used with AC input signals
BTo prevent input noise from causing unstable output signals
CTo cause the output to change states continually
DTo increase the sensitivity

28. - E6D06

What core material property determines the inductance of an inductor?

SelectAnswer
APermeability
BResistance
CReactivity
DThermal impedance

29. - E6E08

How is power supplied to the most common type of MMIC?

SelectAnswer
AThrough a resistor and/or RF choke connected to the amplifier output lead
BDirectly to the bias voltage (VCC IN) lead
CThrough a capacitor and RF choke connected to the amplifier input lead
DMMICs require no operating bias

30. - E6F06

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

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

31. - E7A11

What type of logic defines "1" as a high voltage?

SelectAnswer
APositive Logic
BReverse Logic
CAssertive Logic
DNegative logic

32. - E7B01

For what portion of the signal cycle does each active element in a push-pull Class AB amplifier conduct?

SelectAnswer
AExactly 180 degrees
BThe entire cycle
CMore than 180 degrees but less than 360 degrees
DLess than 180 degrees

33. - E7C06

What are the distinguishing features of an elliptical filter?

SelectAnswer
AExtremely sharp cutoff with one or more notches in the stop band
BGradual passband rolloff with extreme stop band ripple
CGradual passband rolloff with minimal stop band ripple
DExtremely flat response over its pass band with gradually rounded stop band corners

34. - E7D06

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

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

35. - E7E10

How does a diode envelope detector function?

SelectAnswer
ABy rectification and filtering of RF signals
BBy mixing signals with noise in the transition region of the diode
CBy breakdown of the Zener voltage
DBy sensing the change of reactance in the diode with respect to frequency

36. - E7F11

What sets the minimum detectable signal level for a direct-sampling SDR receiver in the absence of atmospheric or thermal noise?

SelectAnswer
AMissing codes and jitter
BData storage transfer rate
CSample clock phase noise
DReference voltage level and sample width in bits

37. - E7G12

What is an operational amplifier?

SelectAnswer
AA high-gain, direct-coupled differential amplifier with very high input impedance and very low output impedance
BA RF amplifier used in the UHF and microwave regions
CA digital audio amplifier whose characteristics are determined by components external to the amplifier
DAn amplifier used to increase the average output of frequency modulated amateur signals to the legal limit

38. - E7H03

How is positive feedback supplied in a Hartley oscillator?

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

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. - E8B03

What is the modulation index of an FM-phone signal having a maximum frequency deviation of 3000 Hz either side of the carrier frequency when the modulating frequency is 1000 Hz?

SelectAnswer
A0.3
B3000
C3
D1000

41. - E8C06

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

SelectAnswer
A1.0 kHz
B0.3 kHz
C0.1 Hz
D0.5 kHz

42. - E8D10

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

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

43. - E9A12

How much gain does an antenna have compared to a 1/2-wavelength dipole when it has 6 dB gain over an isotropic antenna?

SelectAnswer
A3.85 dB
B8.15 dB
C6.0 dB
D2.79 dB

44. - E9B08

What is the far field of an antenna?

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

45. - E9C03

What is the radiation pattern of two 1/4-wavelength vertical antennas spaced 1/2-wavelength apart and fed in phase?

SelectAnswer
AA Figure-8 broadside to the axis of the array
BCardioid
COmni-directional
DA Figure-8 end-fire along the axis of the array

46. - E9D05

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

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

47. - E9E03

What is the name of the matching system that uses a section of transmission line connected in parallel with the feed line at or near the feed point?

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

48. - E9F07

How does ladder line compare to small-diameter coaxial cable such as RG-58 at 50 MHz?

SelectAnswer
ALower velocity factor
BLower loss
CHigher SWR
DSmaller reflection coefficient

49. - E9G05

Which of the following is a common use for a Smith chart?

SelectAnswer
ADetermine the gain of an antenna given the physical and electrical parameters
BDetermine the length and position of an impedance matching stub
CDetermine the impedance of a transmission line, given the physical dimensions
DDetermine the loss/100 feet of a transmission line, given the velocity factor and conductor materials

50. - E9H07

Why is RF attenuation used when direction-finding?

SelectAnswer
ATo prevent receiver overload which reduces pattern nulls
BTo compensate for isotropic directivity and the antenna effect of feed lines
CTo increase receiver sensitivity
DTo narrow the receiver bandwidth

Figure E5-1

Figure E7-2