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

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1. - E0A11

Which of the following injuries can result from using high-power UHF or microwave transmitters?

SelectAnswer
AIngestion of ozone gas from the cooling system
BLocalized heating of the body from RF exposure in excess of the MPE limits
CBlood clotting from the intense magnetic field
DHearing loss caused by high voltage corona discharge

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

3. - E1B09

Which amateur stations may be operated under RACES rules?

SelectAnswer
AAny FCC-licensed amateur station except a Technician Class
BOnly those club stations licensed to Amateur Extra Class operators
CAny FCC-licensed amateur station participating in the Military Auxiliary Radio System (MARS)
DAny FCC-licensed amateur station certified by the responsible civil defense organization for the area served

4. - E1C06

Which of the following is required in order to operate in accordance with CEPT rules in foreign countries where permitted?

SelectAnswer
AYou must append "/CEPT" to your call sign
BThe U.S. embassy must approve of your operation
CYou must identify in the official language of the country in which you are operating
DYou must bring a copy of FCC Public Notice DA 16-1048

5. - E1D04

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

SelectAnswer
AThe station's six-character Maidenhead grid locator
BCall sign
CThe output power of the balloon transmitter
DAll these choices are correct

6. - E1E08

To which of the following examinees may a VE not administer an examination?

SelectAnswer
AAll these choices are correct
BRelatives of the VE as listed in the FCC rules
CEmployees of the VE
DFriends of the VE

7. - E1F08

Which of the following types of amateur station communications are prohibited?

SelectAnswer
ACommunications transmitted for hire or material compensation, except as otherwise provided in the rules
BCommunications that have religious content
CCommunications that have political content, except as allowed by the Fairness Doctrine
DCommunications in a language other than English

8. - E2A12

What is the purpose of digital store-and-forward functions on an amateur radio satellite?

SelectAnswer
ATo store digital messages in the satellite for later download by other stations
BTo delay download of telemetry between satellites
CTo relay messages between satellites
DTo upload operational software for the transponder

9. - E2B10

What aspect of an analog slow-scan television signal encodes the brightness of the picture?

SelectAnswer
ATone frequency
BSync frequency
CSync amplitude
DTone amplitude

10. - E2C01

What indicator is required to be used by U.S.-licensed operators when operating a station via remote control and the remote transmitter is located in the U.S.?

SelectAnswer
ANo additional indicator is required
B/ followed by the ARRL Section of the remote station
C/R# where # is the district of the remote station
D/ followed by the USPS two-letter abbreviation for the state in which the remote station is located

11. - E2D09

What type of modulation is used for JT65 contacts?

SelectAnswer
AIEEE 802.11
BPSK
CRTTY
DMulti-tone AFSK

12. - E2E02

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

SelectAnswer
AFatal Error Correction
BForward Error Correction
CFirst Error Correction
DFinal Error Correction

13. - E3A03

When scheduling EME contacts, which of these conditions will generally result in the least path loss?

SelectAnswer
AWhen the MUF is above 30 MHz
BWhen the moon is full
CWhen the moon is at perigee
DWhen the moon is at apogee

14. - E3B07

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

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

15. - E3C11

What does VOACAP software model?

SelectAnswer
AAC voltage and impedance
BAC current and impedance
CHF propagation
DVHF radio propagation

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. - E4B11

Which of the following can be measured with a vector network analyzer?

SelectAnswer
AInput impedance
BOutput impedance
CReflection coefficient
DAll these choices are correct

18. - E4C02

Which of the following receiver circuits can be effective in eliminating interference from strong out-of-band signals?

SelectAnswer
AA front-end filter or pre-selector
BA narrow IF filter
CA notch filter
DA properly adjusted product detector

19. - E4D01

What is meant by the blocking dynamic range of a receiver?

SelectAnswer
AThe minimum difference in dB between two signals which produce third-order intermodulation products greater than the noise floor
BThe difference in dB between the noise floor and the level of an incoming signal that will cause 1 dB of gain compression
CThe difference in dB between the noise floor and the third-order intercept point
DThe minimum difference in dB between the levels of two FM signals that will cause one signal to block the other

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. - E5A10

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

SelectAnswer
AReactance of either the inductance or capacitance divided by the resistance
BReactance of the inductance multiplied by the reactance of the capacitance
CResistance divided by the reactance of either the inductance or capacitance
DReactance of either the inductance or capacitance multiplied by the resistance

22. - E5B06

What is susceptance?

SelectAnswer
AA measure of the efficiency of a transformer
BThe ratio of magnetic field to electric field
CThe imaginary part of admittance
DThe magnetic impedance of a circuit

23. - E5C05

What is the name of the diagram used to show the phase relationship between impedances at a given frequency?

SelectAnswer
ANear field diagram
BVenn diagram
CFar field diagram
DPhasor diagram

24. - E5D08

How many watts are consumed in a circuit having a power factor of 0.6 if the input is 200VAC at 5 amperes?

SelectAnswer
A1000 watts
B200 watts
C1600 watts
D600 watts

25. - E6A07

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

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

26. - E6B07

What is the failure mechanism when a junction diode fails due to excessive current?

SelectAnswer
AExcessive junction temperature
BInsufficient forward voltage
CCharge carrier depletion
DExcessive inverse voltage

27. - E6C06

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

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

28. - E6D02

What is the equivalent circuit of a quartz crystal?

SelectAnswer
AMotional capacitance, motional inductance, and loss resistance in series, all in parallel with a shunt capacitor representing electrode and stray capacitance
BMotional capacitance, motional inductance, loss resistance, and a capacitor representing electrode and stray capacitance all in parallel
CMotional capacitance, motional inductance, loss resistance, and a capacitor representing electrode and stray capacitance all in series
DMotional inductance and loss resistance in series, paralleled with motional capacitance and a capacitor representing electrode and stray capacitance

29. - E6E03

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

SelectAnswer
ASilicon dioxide
BSilicon
CSilicon nitride
DGallium nitride

30. - E6F11

What is the approximate open-circuit voltage produced by a fully illuminated silicon photovoltaic cell?

SelectAnswer
A12 V
B0.5 V
C1.5 V
D0.1 V

31. - E7A01

Which circuit is bistable?

SelectAnswer
AA flip-flop
BAn AND gate
CA bipolar amplifier
DAn OR gate

32. - E7B11

In Figure E7-1, what is the purpose of R3?

SelectAnswer
AEmitter bypass
BSelf bias
CFixed bias
DOutput load resistor

33. - E7C08

Which of the following factors has the greatest effect on the bandwidth and response shape of a crystal ladder filter?

SelectAnswer
AThe DC voltage applied to the quartz crystal
BThe relative frequencies of the individual crystals
CThe amplitude of the signals passing through the filter
DThe gain of the RF stage preceding the filter

34. - E7D07

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

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

35. - E7E08

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

SelectAnswer
ATwo and four times the original frequency
BThe square root of the product of input frequencies
CThe two input frequencies along with their sum and difference frequencies
D1.414 and 0.707 times the input frequency

36. - E7F10

What aspect of receiver analog-to-digital conversion determines the maximum receive bandwidth of a Direct Digital Conversion SDR?

SelectAnswer
ASample clock phase noise
BSample width in bits
CSample rate
DProcessor latency

37. - E7G09

What will be the output voltage of the circuit shown in Figure E7-3 if R1 is 1000 ohms, RF is 10,000 ohms, and 0.23 volts DC is applied to the input?

SelectAnswer
A-0.23 volts
B0.23 volts
C2.3 volts
D-2.3 volts

38. - E7H06

Which of the following oscillator circuits are commonly used in VFOs?

SelectAnswer
ANegative feedback and balanced feedback
BPierce and Zener
CColpitts and Hartley
DArmstrong and deForest

39. - E8A11

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

SelectAnswer
AReciprocal mixing
BPeak envelope power
CTotal harmonic distortion
DPower factor

40. - E8B08

What describes Orthogonal Frequency Division Multiplexing?

SelectAnswer
AA frequency modulation technique that uses non-harmonically related frequencies
BA digital modulation technique using subcarriers at frequencies chosen to avoid intersymbol interference
CA bandwidth compression technique using Fourier transforms
DA digital mode for narrow-band, slow-speed transmissions

41. - E8C05

What is the approximate bandwidth of a 13-WPM International Morse Code transmission?

SelectAnswer
A104 Hz
B26 Hz
C52 Hz
D13 Hz

42. - E8D01

Why are received spread spectrum signals resistant to interference?

SelectAnswer
AIf interference is detected by the receiver it will signal the transmitter to change frequencies
BThe high power used by a spread spectrum transmitter keeps its signal from being easily overpowered
CThe receiver is always equipped with a digital blanker
DSignals not using the spread spectrum algorithm are suppressed in the receiver

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
A317 watts
B126 watts
C2000 watts
D300 watts

44. - E9B10

What is the principle of a Method of Moments analysis?

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

45. - E9C05

Which of the following is a type of OCFD antenna?

SelectAnswer
AA folded dipole center-fed with 300-ohm transmission line
BA multiband dipole antenna using one-way circular polarization for frequency diversity
CA dipole fed approximately 1/3 the way from one end with a 4:1 balun to provide multiband operation
DA remotely tunable dipole antenna using orthogonally controlled frequency diversity

46. - E9D03

Where should a high Q loading coil be placed to minimize losses in a shortened vertical antenna?

SelectAnswer
ANear the center of the vertical radiator
BAt a voltage node
CAs low as possible on the vertical radiator
DAs close to the transmitter as possible

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

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 loss per unit of length
DFoam dielectric has lower safe operating voltage limits

49. - E9G10

What do the arcs on a Smith chart represent?

SelectAnswer
APoints with constant resistance
BFrequency
CSWR
DPoints with constant reactance

50. - E9H09

What is a Pennant antenna?

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

Figure E7-1

Figure E7-2

Figure E7-3