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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
BSynthetic Aperture Ratio of the human body
CThe rate at which RF energy is absorbed by the body
DSignal Amplification Rating

2. - E1A12

What special operating frequency restrictions are imposed on slow scan TV transmissions?

SelectAnswer
AThey are restricted to phone band segments
BThey are restricted to 7.245 MHz, 14.245 MHz, 21.345 MHz, and 28.945 MHz
CThey are not permitted above 54 MHz
DNone; they are allowed on all amateur frequencies

3. - E1B03

Within what distance must an amateur station protect an FCC monitoring facility from harmful interference?

SelectAnswer
A30 miles
B3 miles
C10 miles
D1 mile

4. - E1C03

How do the control operator responsibilities of a station under automatic control differ from one under local control?

SelectAnswer
AUnder local control a control operator is not required to be present at a control point
BUnder local control there is no control operator
CUnder automatic control the control operator is not required to be present at the control point
DUnder automatic control there is no control operator

5. - E1D11

Which amateur stations are eligible to operate as Earth stations?

SelectAnswer
AAny amateur station, subject to the privileges of the class of operator license held by the control operator
BOnly those of Amateur Extra Class operators
CAny amateur station whose licensee has filed a pre-space notification with the FCC's International Bureau
DOnly those of General, Advanced or Amateur Extra Class operators

6. - E1E06

Who is responsible for the proper conduct and necessary supervision during an amateur operator license examination session?

SelectAnswer
AThe VEC coordinating the session
BThe FCC
CThe VE session manager
DEach administering VE

7. - E1F01

On what frequencies are spread spectrum transmissions permitted?

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

8. - E2A02

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

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

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 lines from left to right in one field and right to left in the next
DBy scanning each field from bottom to top

10. - E2C09

What type of equipment is commonly used to implement an amateur radio mesh network?

SelectAnswer
AA wireless router running custom firmware
BA 440 MHz transceiver with a 9600 baud modem
CA 2 meter VHF transceiver with a 1200 baud modem
DAn optical cable connection between the USB ports of 2 separate computers

11. - E2D10

How can an APRS station be used to help support a public service communications activity?

SelectAnswer
AAPRS stations with General Personnel Scanners can automatically relay the participant numbers and time as they pass the check points
BAn APRS station with an emergency medical technician can automatically transmit medical data to the nearest hospital
CAn APRS station with a Global Positioning System unit can automatically transmit information to show a mobile station's position during the event
DAll these choices are correct

12. - E2E09

Which of the following HF digital modes uses variable-length coding for bandwidth efficiency?

SelectAnswer
ARTTY
BMT63
CPSK31
DPACTOR

13. - E3A02

What characterizes libration fading of an EME signal?

SelectAnswer
AA gradual loss of signal as the sun rises
BA slow change in the pitch of the CW signal
CThe returning echo is several hertz lower in frequency than the transmitted signal
DA fluttery irregular fading

14. - E3B04

What is meant by the terms "extraordinary" and "ordinary" waves?

SelectAnswer
ALong-path and short-path waves
BIndependent waves created in the ionosphere that are elliptically polarized
CRefracted rays and reflected waves
DExtraordinary waves describe rare long-skip propagation compared to ordinary waves, which travel shorter distances

15. - E3C07

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

SelectAnswer
AClass M
BClass A
CClass B
DClass X

16. - E4A02

Which of the following parameters does a spectrum analyzer display on the vertical and horizontal axes?

SelectAnswer
ARF amplitude and time
BRF amplitude and frequency
CSWR and time
DSWR and frequency

17. - E4B07

What do the subscripts of S parameters represent?

SelectAnswer
AThe port or ports at which measurements are made
BRelative quality of the data
CThe relative time between measurements
DFrequency order of the measurements

18. - E4C03

What is the term for the suppression in an FM receiver of one signal by another stronger signal on the same frequency?

SelectAnswer
AFrequency discrimination
BCross-modulation interference
CDesensitization
DCapture effect

19. - E4D05

What transmitter frequencies would cause an intermodulation-product signal in a receiver tuned to 146.70 MHz when a nearby station transmits on 146.52 MHz?

SelectAnswer
A146.88 MHz and 146.34 MHz
B146.10 MHz and 147.30 MHz
C173.35 MHz and 139.40 MHz
D146.34 MHz and 146.61 MHz

20. - E4E04

How can conducted and radiated noise caused by an automobile alternator be suppressed?

SelectAnswer
ABy connecting the radio's power leads directly to the battery and by installing coaxial capacitors in line with the alternator leads
BBy installing filter capacitors in series with the DC power lead and a blocking capacitor in the field lead
CBy installing a noise suppression resistor and a blocking capacitor in both leads
DBy installing a high-pass filter in series with the radio's power lead and a low-pass filter in parallel with the field lead

21. - E5A03

What is the magnitude of the impedance of a series RLC circuit at resonance?

SelectAnswer
AApproximately equal to circuit resistance
BHigh, as compared to the circuit resistance
CApproximately equal to capacitive reactance
DApproximately equal to inductive reactance

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
A76 degrees with the voltage lagging the current
B76 degrees with the voltage leading the current
C14 degrees with the voltage leading the current
D14 degrees with the voltage lagging the current

23. - E5C09

When using rectangular coordinates to graph the impedance of a circuit, what do the axes represent?

SelectAnswer
AThe X axis represents the magnitude and the Y axis represents the phase angle
BThe X axis represents the phase angle and the Y axis represents the magnitude
CThe X axis represents the resistive component and the Y axis represents the reactive component
DThe X axis represents the reactive component and the Y axis represents the resistive component

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
B252 W
C355 W
D704 W

25. - E6A10

In Figure E6-1, what is the schematic symbol for an N-channel dual-gate MOSFET?

SelectAnswer
A4
B5
C6
D2

26. - E6B10

In Figure E6-2, what is the schematic symbol for a light-emitting diode?

SelectAnswer
A7
B6
C5
D1

27. - E6C09

What is a Programmable Logic Device (PLD)?

SelectAnswer
AA type of transistor whose gain can be changed by digital logic circuits
BA programmable collection of logic gates and circuits in a single integrated circuit
CProgrammable equipment used for testing digital logic integrated circuits
DA logic circuit that can be modified during use

28. - E6D08

What is one reason for using powdered-iron cores rather than ferrite cores in an inductor?

SelectAnswer
APowdered-iron cores generally have greater initial permeability
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 use smaller diameter wire for the same inductance

29. - E6E10

What advantage does surface-mount technology offer at RF compared to using through-hole components?

SelectAnswer
AAll these choices are correct
BShorter circuit-board traces
CComponents have less parasitic inductance and capacitance
DSmaller circuit area

30. - E6F09

What is the efficiency of a photovoltaic cell?

SelectAnswer
ACost per kilowatt-hour generated
BThe relative fraction of light that is converted to current
CThe output RF power divided by the input DC power
DThe open-circuit voltage divided by the short-circuit current under full illumination

31. - E7A04

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

SelectAnswer
A1
B8
C2
D4

32. - E7B05

What can be done to prevent unwanted oscillations in an RF power amplifier?

SelectAnswer
AUse a phase inverter in the output filter
BInstall parasitic suppressors and/or neutralize the stage
CTune both the input and output for maximum power
DTune the stage for maximum SWR

33. - E7C02

Which of the following is a property of a T-network with series capacitors and a parallel shunt inductor?

SelectAnswer
AIt is a high-pass filter
BIt is a notch filter
CIt is a band-pass filter
DIt is a low-pass filter

34. - E7D07

What is the purpose of C2 in the circuit shown in Figure E7-2?

SelectAnswer
AIt is a brute force filter for the output
BTo provide fixed DC bias for Q1
CTo self-resonate at the hum frequency
DIt bypasses rectifier output ripple around D1

35. - E7E08

What are the principal frequencies that appear at the output of a mixer circuit?

SelectAnswer
AThe square root of the product of input frequencies
B1.414 and 0.707 times the input frequency
CTwo and four times the original frequency
DThe two input frequencies along with their sum and difference frequencies

36. - E7F06

What is the minimum number of bits required for an analog-to-digital converter to sample a signal with a range of 1 volt at a resolution of 1 millivolt?

SelectAnswer
A10 bits
B4 bits
C6 bits
D8 bits

37. - E7G10

What absolute voltage gain can be expected from the circuit in Figure E7-3 when R1 is 1800 ohms and RF is 68 kilohms?

SelectAnswer
A38
B76
C1
D0.03

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. - E8A11

Which of the following is a measure of the quality of an analog-to-digital converter?

SelectAnswer
APeak envelope power
BPower factor
CTotal harmonic distortion
DReciprocal mixing

40. - E8B10

What is frequency division multiplexing?

SelectAnswer
ATwo or more information streams are merged into a baseband, which then modulates the transmitter
BThe transmitted signal is divided into packets of information
CThe transmitted signal jumps from band to band at a predetermined rate
DTwo or more information streams are merged into a digital combiner, which then pulse position modulates the transmitter

41. - E8C02

What is the definition of symbol rate in a digital transmission?

SelectAnswer
AThe duration of each bit in a message sent over the air
BThe number of control characters in a message packet
CThe rate at which the waveform changes to convey information
DThe number of characters carried per second by the station-to-station link

42. - E8D07

What is a common cause of overmodulation of AFSK signals?

SelectAnswer
ABit errors in the modem
BGround loops
CExcessive transmit audio levels
DExcessive numbers of retries

43. - E9A09

What is antenna efficiency?

SelectAnswer
ARadiation resistance divided by transmission resistance
BTotal resistance divided by radiation resistance
CEffective radiated power divided by transmitter output
DRadiation resistance divided by total resistance

44. - E9B10

What is the principle of a Method of Moments analysis?

SelectAnswer
AA wire is modeled as a single sine-wave voltage source
BA wire is modeled as a single sine-wave current generator
CA wire is modeled as a series of segments, each having a distinct value of voltage across it
DA wire is modeled as a series of segments, each having a uniform value of current

45. - E9C04

What happens to the radiation pattern of an unterminated long wire antenna as the wire length is increased?

SelectAnswer
AThe lobes align more in the direction of the wire
BThe vertical angle increases
CThe front-to-back ratio decreases
DThe lobes become more perpendicular to the wire

46. - E9D08

What happens as the Q of an antenna increases?

SelectAnswer
ASWR bandwidth increases
BGain is reduced
CSWR bandwidth decreases
DMore common-mode current is present on the feed line

47. - E9E01

What system matches a higher-impedance transmission line to a lower-impedance antenna by connecting the line to the driven element in two places spaced a fraction of a wavelength each side of element center?

SelectAnswer
AThe delta matching system
BThe gamma matching system
CThe omega matching system
DThe stub matching system

48. - E9F10

What impedance does a 1/8-wavelength transmission line present to a generator when the line is shorted at the far end?

SelectAnswer
AZero
BThe same as the characteristic impedance of the line
CAn inductive reactance
DA capacitive reactance

49. - E9G09

What third family of circles is often added to a Smith chart during the process of solving problems?

SelectAnswer
AAntenna-length circles
BStanding wave ratio circles
CRadiation-pattern circles
DCoaxial-length circles

50. - E9H09

What is a Pennant antenna?

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

Figure E6-1

Figure E6-2

Figure E7-2

Figure E7-3