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

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1. - E0A03

Over what range of frequencies are the FCC human body RF exposure limits most restrictive?

SelectAnswer
A30 to 300 MHz
B300 to 3000 MHz
C3 to 30 MHz
D300 kHz to 3 MHz

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
A3 miles
B30 miles
C1 mile
D10 miles

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
BYou must identify in the official language of the country in which you are operating
CYou must bring a copy of FCC Public Notice DA 16-1048
DThe U.S. embassy must approve of your operation

5. - E1D12

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

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

6. - E1E12

What must the VE team do with the application form if the examinee does not pass the exam?

SelectAnswer
AReturn the application document to the examinee
BSend the application form to the FCC and inform the FCC of the grade
CDestroy the application form
DMaintain the application form with the VEC's records

7. - E1F09

Which of the following conditions apply when transmitting spread spectrum emissions?

SelectAnswer
AThe transmitting station must be in an area regulated by the FCC or in a country that permits SS emissions
BA station transmitting SS emission must not cause harmful interference to other stations employing other authorized emissions
CThe transmission must not be used to obscure the meaning of any communication
DAll these choices are correct

8. - E2A13

Which of the following techniques is normally used by low Earth orbiting digital satellites to relay messages around the world?

SelectAnswer
ADigipeating
BMulti-satellite relaying
CNode hopping
DStore-and-forward

9. - E2B01

How many times per second is a new frame transmitted in a fast-scan (NTSC) television system?

SelectAnswer
A60
B90
C120
D30

10. - E2C05

What is the function of a DX QSL Manager?

SelectAnswer
ATo run a net to allow many stations to contact a rare DX station
BTo relay calls to and from a DX station
CTo handle the receiving and sending of confirmation cards for a DX station
DTo allocate frequencies for DXpeditions

11. - E2D01

Which of the following digital modes is designed for meteor scatter communications?

SelectAnswer
AHellschreiber
BWSPR
CAPRS
DMSK144

12. - E2E01

Which of the following types of modulation is common for data emissions below 30 MHz?

SelectAnswer
ASpread spectrum
BDTMF tones modulating an FM signal
CFSK
DPulse modulation

13. - E3A11

What is a typical range for tropospheric propagation of microwave signals?

SelectAnswer
A2500 miles
B10 miles to 50 miles
C1200 miles
D100 miles to 300 miles

14. - E3B12

What is the primary characteristic of chordal hop propagation?

SelectAnswer
APropagation away from the great circle bearing between stations
BPropagation across the geomagnetic equator
CSuccessive ionospheric refractions without an intermediate reflection from the ground
DSignals reflected back toward the transmitting station

15. - E3C06

By how much does the VHF/UHF radio horizon distance exceed the geometric horizon?

SelectAnswer
ABy approximately 50 percent of the distance
BBy approximately twice the distance
CBy approximately four times the distance
DBy approximately 15 percent of the distance

16. - E4A04

How is the compensation of an oscilloscope probe typically adjusted?

SelectAnswer
AA square wave is displayed and the probe is adjusted until the horizontal portions of the displayed wave are as nearly flat as possible
BA high frequency sine wave is displayed and the probe is adjusted for maximum amplitude
CA frequency standard is displayed and the probe is adjusted until the deflection time is accurate
DA DC voltage standard is displayed and the probe is adjusted until the displayed voltage is accurate

17. - E4B02

What is the significance of voltmeter sensitivity expressed in ohms per volt?

SelectAnswer
AThe full scale reading of the voltmeter multiplied by its ohms per volt rating will indicate the input impedance of the voltmeter
BWhen used as an ammeter, the full scale reading in amps divided by ohms per volt rating will determine the size of shunt needed
CWhen used as an ohmmeter, the reading in ohms divided by the ohms per volt rating will determine the voltage applied to the circuit
DWhen used as a galvanometer, the reading in volts multiplied by the ohms per volt rating will determine the power drawn by the device under test

18. - E4C13

How does a narrow-band roofing filter affect receiver performance?

SelectAnswer
AAll these choices are correct
BIt improves dynamic range by attenuating strong signals near the receive frequency
CIt improves intelligibility by using low Q circuitry to reduce ringing
DIt improves sensitivity by reducing front end noise

19. - E4D12

What is the term for the reduction in receiver sensitivity caused by a strong signal near the received frequency?

SelectAnswer
ADesensitization
BSquelch gain rollback
CQuieting
DCross-modulation interference

20. - E4E05

How can radio frequency interference from an AC motor be suppressed?

SelectAnswer
ABy using a ground-fault current interrupter in the circuit used to power the motor
BBy installing a brute-force AC-line filter in series with the motor leads
CBy installing a high-pass filter in series with the motor's power leads
DBy installing a bypass capacitor in series with the motor leads

21. - E5A15

Which of the following increases Q for inductors and capacitors?

SelectAnswer
ALower reactance
BLower self-resonant frequency
CLower losses
DHigher self-resonant frequency

22. - E5B03

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

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

23. - E5C04

What coordinate system is often used to display the resistive, inductive, and/or capacitive reactance components of impedance?

SelectAnswer
ARectangular coordinates
BMaidenhead grid
CFaraday grid
DElliptical coordinates

24. - E5D02

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

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

25. - E6A03

Why does a PN-junction diode not conduct current when reverse biased?

SelectAnswer
AHoles in P-type material and electrons in the N-type material are separated by the applied voltage, widening the depletion region
BExcess holes in P-type material combine with the electrons in N-type material, converting the entire diode into an insulator
COnly N-type semiconductor material can conduct current
DOnly P-type semiconductor material can conduct current

26. - E6B06

Which of the following is a common use of a Schottky diode?

SelectAnswer
AAs a constant voltage reference in a power supply
BAs a VHF/UHF mixer or detector
CAs a rectifier in high current power supplies
DAs a variable capacitance in an automatic frequency control circuit

27. - E6C02

What happens when the level of a comparator's input signal crosses the threshold?

SelectAnswer
AThe IC input can be damaged
BThe comparator enters latch-up
CThe comparator changes its output state
DThe feedback loop becomes unstable

28. - E6D08

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

SelectAnswer
APowdered-iron cores use smaller diameter wire for the same inductance
BPowdered-iron cores generally require fewer turns to produce a given inductance
CPowdered-iron cores generally have greater initial permeability
DPowdered-iron cores generally maintain their characteristics at higher currents

29. - E6E05

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

SelectAnswer
A-20 dBm
B-10 dB
C44 dBm
D2 dB

30. - E6F02

What happens to the conductivity of a photoconductive material when light shines on it?

SelectAnswer
AIt becomes unstable
BIt stays the same
CIt decreases
DIt increases

31. - E7A10

What is a truth table?

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

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 matched load resistor to prevent damage by switching transients
CA low-pass filter to remove switching signal components
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 Chebyshev filter
BA Butterworth filter
CA passive op-amp filter
DAn active LC filter

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

35. - E7E01

Which of the following can be used to generate FM phone emissions?

SelectAnswer
AA reactance modulator on the oscillator
BA balanced modulator on the oscillator
CA reactance modulator on the final amplifier
DA balanced modulator on the audio amplifier

36. - E7F07

What function is performed by a Fast Fourier Transform?

SelectAnswer
AConverting 8-bit data to 16-bit data
BConverting digital signals from the time domain to the frequency domain
CConverting analog signals to digital form
DConverting digital signals to analog form

37. - E7G08

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

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

38. - E7H11

What are the major spectral impurity components of direct digital synthesizers?

SelectAnswer
ASpurious signals at discrete frequencies
BDigital conversion noise
CNyquist limit noise
DBroadband noise

39. - E8A02

Which of the following is a type of analog-to-digital conversion?

SelectAnswer
APhase reversal
BHarmonic regeneration
CLevel shifting
DSuccessive approximation

40. - E8B01

What is the modulation index of an FM signal?

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

41. - E8C08

How does ARQ accomplish error correction?

SelectAnswer
ASpecial polynomial codes provide automatic correction
BSpecial binary codes provide automatic correction
CIf errors are detected, a retransmission is requested
DIf errors are detected, redundant data is substituted

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
CSignals not using the spread spectrum algorithm are suppressed in the receiver
DThe receiver is always equipped with a digital blanker

43. - E9A01

What is an isotropic antenna?

SelectAnswer
AA theoretical, omnidirectional antenna used as a reference for antenna gain
BA spacecraft antenna used to direct signals toward Earth
CA horizontally polarized antenna used to compare Yagi antennas
DA grounded antenna used to measure Earth conductivity

44. - E9B04

What is the front-to-back ratio of the radiation pattern shown in Figure E92?

SelectAnswer
A3 dB
B38 dB
C28 dB
D15 dB

45. - E9C13

How does the radiation pattern of a horizontally polarized 3-element beam antenna vary with increasing height above ground?

SelectAnswer
AThe takeoff angle of the lowest elevation lobe increases
BThe takeoff angle of the lowest elevation lobe decreases
CThe horizontal beamwidth decreases
DThe horizontal beamwidth increases

46. - E9D08

What happens as the Q of an antenna increases?

SelectAnswer
AGain is reduced
BSWR bandwidth decreases
CMore common-mode current is present on the feed line
DSWR bandwidth increases

47. - E9E06

Which of these feed line impedances would be suitable for constructing a quarter-wave Q-section for matching a 100-ohm loop to 50-ohm feed line?

SelectAnswer
A450 ohms
B75 ohms
C50 ohms
D62 ohms

48. - E9F07

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

SelectAnswer
ASmaller reflection coefficient
BLower loss
CLower velocity factor
DHigher SWR

49. - E9G10

What do the arcs on a Smith chart represent?

SelectAnswer
APoints with constant reactance
BPoints with constant resistance
CSWR
DFrequency

50. - E9H03

What is Receiving Directivity Factor (RDF)?

SelectAnswer
ARelative directivity compared to isotropic
BForward gain compared to average gain over the entire hemisphere
CRelative directivity compared to a dipole
DForward gain compared to the gain in the reverse direction