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

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1. - E0A07

How may dangerous levels of carbon monoxide from an emergency generator be detected?

SelectAnswer
ABy the odor
BBy the yellowish appearance of the gas
CAny ordinary smoke detector can be used
DOnly with a carbon monoxide detector

2. - E1A01

Which of the following carrier frequencies is illegal for LSB AFSK emissions on the 17 meter band RTTY and data segment of 18.068 to 18.110 MHz?

SelectAnswer
A18.110 MHz
B18.107 MHz
C18.100 MHz
D18.068 MHz

3. - E1B10

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

SelectAnswer
AAll amateur service frequencies authorized to the control operator
BSpecific segments in the amateur service MF, HF, VHF and UHF bands
CSpecific local government channels
DMilitary Auxiliary Radio System (MARS) channels

4. - E1C14

How long must an operator wait after filing a notification with the Utilities Technology Council (UTC) before operating on the 2200 meter or 630 meter band?

SelectAnswer
AOperations may commence immediately, and may continue unless interference is reported by the UTC
BOperators may operate after 30 days, providing they have not been told that their station is within 1 km of PLC systems using those frequencies
COperators may not operate until a test signal has been transmitted in coordination with the local power company
DOperators must not operate until approval is received

5. - E1D02

Which of the following may transmit special codes intended to obscure the meaning of messages?

SelectAnswer
AData containing personal information
BAuxiliary relay links carrying repeater audio
CTelecommand signals from a space telecommand station
DBinary control characters

6. - E1E03

What is a Volunteer Examiner Coordinator?

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

7. - E1F07

When may an amateur station send a message to a business?

SelectAnswer
AWhen transmitting international third-party communications
BWhen the control operator is employed by the FCC or another government agency
CWhen the total money involved does not exceed $25
DWhen neither the amateur nor his or her employer has a pecuniary interest in the communications

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
BAll these choices are correct
CSignal position in the band is reversed
DDoppler shift is reduced because the uplink and downlink shifts are in opposite directions

9. - E2B11

What is the function of the Vertical Interval Signaling (VIS) code sent as part of an SSTV transmission?

SelectAnswer
ATo lock the color burst oscillator in color SSTV images
BTo identify the call sign of the station transmitting
CTo provide vertical synchronization
DTo identify the SSTV mode being used

10. - E2C07

What is the Cabrillo format?

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

11. - E2D03

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

SelectAnswer
AOlivia
BJT65
CMSK144
DPACTOR III

12. - E2E02

What do the letters FEC mean as they relate to digital operation?

SelectAnswer
AFatal Error Correction
BFirst Error Correction
CForward Error Correction
DFinal Error Correction

13. - E3A06

What might help to restore contact when DX signals become too weak to copy across an entire HF band a few hours after sunset?

SelectAnswer
ASwitch to a lower frequency HF band
BSwitch to a higher frequency HF band
CWait 24 hours before attempting another communication on the band
DWait 90 minutes or so for the signal degradation to pass

14. - E3B02

What is the approximate maximum range for signals using transequatorial propagation?

SelectAnswer
A7500 miles
B1000 miles
C2500 miles
D5000 miles

15. - E3C01

What does the radio communication term "ray tracing" describe?

SelectAnswer
ADetermining the radiation pattern from an array of antennas
BThe process in which an electronic display presents a pattern
CEvaluating high voltage sources for x-rays
DModeling a radio wave's path through the ionosphere

16. - E4A05

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

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

17. - E4B03

Which S parameter is equivalent to forward gain?

SelectAnswer
AS12
BS11
CS21
DS22

18. - E4C08

An SDR receiver is overloaded when input signals exceed what level?

SelectAnswer
AOne-half the maximum sample rate
BOne-half the maximum sampling buffer size
CThe maximum count value of the analog-to-digital converter
DThe reference voltage of the analog-to-digital converter

19. - E4D11

Why are odd-order intermodulation products, created within a receiver, of particular interest compared to other products?

SelectAnswer
AOdd-order products of two signals in the band of interest are also likely to be within the band
BOdd-order products overload the IF filters
COdd-order products are an indication of poor image rejection
DOdd-order intermodulation produces three products for every input signal within the band of interest

20. - E4E03

Which of the following signals might a receiver noise blanker be able to remove from desired signals?

SelectAnswer
ASignals that appear at one IF but not another
BSignals that have a sharply peaked frequency distribution
CSignals that appear across a wide bandwidth
DSignals that are constant at all IF levels

21. - E5A05

What is the result of increasing the Q of an impedance-matching circuit?

SelectAnswer
AMatching bandwidth is increased
BMatching bandwidth is decreased
CIt has no effect on impedance matching
DMatching range is increased

22. - E5B11

What is the phase angle between the voltage across and the current through a series RLC circuit if XC is 25 ohms, R is 100 ohms, and XL is 50 ohms?

SelectAnswer
A14 degrees with the voltage lagging the current
B76 degrees with the voltage lagging the current
C76 degrees with the voltage leading the current
D14 degrees with the voltage leading the current

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 1
CPoint 8
DPoint 3

24. - E5D02

Why is it important to keep lead lengths short for components used in circuits for VHF and above?

SelectAnswer
ATo maintain component lifetime
BTo increase the thermal time constant
CTo avoid unwanted inductive reactance
DAll these choices are correct

25. - E6A05

How does DC input impedance at the gate of a field-effect transistor compare with the DC input impedance of a bipolar transistor?

SelectAnswer
AThey are both high impedance
BAn FET has higher input impedance
CAn FET has lower input impedance
DThey are both low impedance

26. - E6B03

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

SelectAnswer
AZero bias
BInductive bias
CReverse bias
DForward bias

27. - E6C06

Why do CMOS digital integrated circuits have high immunity to noise on the input signal or power supply?

SelectAnswer
ABandwidth is very limited
BThe input switching threshold is about two times the power supply voltage
CThe input switching threshold is about one-half the power supply voltage
DLarge bypass capacitance is inherent

28. - E6D09

What devices are commonly used as VHF and UHF parasitic suppressors at the input and output terminals of a transistor HF amplifier?

SelectAnswer
ASteel-core toroids
BButterworth filters
CElectrolytic capacitors
DFerrite beads

29. - E6E05

Which of the following noise figure values is typical of a low-noise UHF preamplifier?

SelectAnswer
A-10 dB
B-20 dBm
C2 dB
D44 dBm

30. - E6F01

What absorbs the energy from light falling on a photovoltaic cell?

SelectAnswer
APhotons
BElectrons
CHoles
DProtons

31. - E7A09

What logical operation is performed by an exclusive NOR gate?

SelectAnswer
AIt produces logic 1 at its output if only one input is logic 1
BIt produces logic 0 at its output if only one input is logic 1
CIt produces logic 1 at its output only if all inputs are logic 1
DIt produces logic 0 at its output only if all inputs are logic 0

32. - E7B03

Which of the following components form the output of a class D amplifier circuit?

SelectAnswer
AA temperature compensating load resistor to improve linearity
BA low-pass filter to remove switching signal components
CA matched load resistor to prevent damage by switching transients
DA high-pass filter to compensate for low gain at low frequencies

33. - E7C05

Which filter type is described as having ripple in the passband and a sharp cutoff?

SelectAnswer
AA Butterworth filter
BAn active LC filter
CA passive op-amp filter
DA Chebyshev filter

34. - E7D09

What is the main reason to use a charge controller with a solar power system?

SelectAnswer
AMatching of day and night charge rates
BPrevention of battery damage due to overcharge
CControl of electrolyte levels during battery discharge
DPrevention of battery undercharge

35. - E7E03

What is a frequency discriminator stage in a FM receiver?

SelectAnswer
AA circuit for detecting FM signals
BA circuit for filtering two closely adjacent signals
CAn FM generator circuit
DAn automatic band-switching circuit

36. - E7F09

Why is an anti-aliasing digital filter required in a digital decimator?

SelectAnswer
AIt removes low-frequency signal components to eliminate the need for DC restoration
BIt peaks the response of the decimator, improving bandwidth
CIt notches out the sampling frequency to avoid sampling errors
DIt removes high-frequency signal components that would otherwise be reproduced as lower frequency components

37. - E7G08

How does the gain of an ideal operational amplifier vary with frequency?

SelectAnswer
AIt decreases linearly with increasing frequency
BIt decreases logarithmically with increasing frequency
CIt does not vary with frequency
DIt increases linearly with increasing frequency

38. - E7H08

Which of the following components can be used to reduce thermal drift in crystal oscillators?

SelectAnswer
ANon-inductive resistors
BNP0 capacitors
CWirewound resistors
DToroidal inductors

39. - E8A07

What determines the PEP-to-average power ratio of a single-sideband phone signal?

SelectAnswer
ASpeech characteristics
BThe degree of carrier suppression
CAmplifier gain
DThe frequency of the modulating signal

40. - E8B01

What is the modulation index of an FM signal?

SelectAnswer
AThe type of modulation used by the transmitter
BThe ratio of modulating signal amplitude to frequency deviation
CThe ratio of frequency deviation to modulating signal frequency
DThe bandwidth of the transmitted signal divided by the modulating signal frequency

41. - E8C10

How may data rate be increased without increasing bandwidth?

SelectAnswer
AUsing a more efficient digital code
BIt is impossible
CUsing forward error correction
DIncreasing analog-to-digital conversion resolution

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. - E9A13

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

SelectAnswer
AEffective radiated power
BHalf-power bandwidth
CApparent power
DPower factor

44. - E9B03

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

SelectAnswer
A12 dB
B18 dB
C24 dB
D14 dB

45. - E9C09

Which of the following describes a G5RV antenna?

SelectAnswer
AA phased array antenna consisting of multiple loops
BA wide band dipole using shorted coaxial cable for the radiating elements and fed with aÿ4:1 balun
CA multi-band dipole antenna fed with coax and a balun through a selected length of open wire transmission line
DA multi-band trap antenna

46. - E9D07

What is an advantage of using top loading in a shortened HF vertical antenna?

SelectAnswer
AHigher losses
BGreater structural strength
CImproved radiation efficiency
DLower Q

47. - E9E04

What is the purpose of the series capacitor in a gamma-type antenna matching network?

SelectAnswer
ATo provide a rejection notch that prevents the radiation of harmonics
BTo provide DC isolation between the feed line and the antenna
CTo transform the antenna impedance to a higher value
DTo cancel the inductive reactance of the matching network

48. - E9F03

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

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

49. - E9G01

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

SelectAnswer
AAntenna radiation pattern
BRadiation resistance
CRadio propagation
DImpedance along transmission lines

50. - E9H06

What is the triangulation method of direction finding?

SelectAnswer
AThe geometric angles of sky waves from the source are used to determine its position
BAntenna headings from several different receiving locations are used to locate the signal source
CA fixed receiving station uses three different antennas to plot the location of the signal source
DA fixed receiving station plots three headings to the signal source

Figure E5-1

Figure E9-1