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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
ABlood clotting from the intense magnetic field
BHearing loss caused by high voltage corona discharge
CIngestion of ozone gas from the cooling system
DLocalized heating of the body from RF exposure in excess of the MPE limits

2. - E1A05

What is the maximum power output permitted on the 60 meter band?

SelectAnswer
A100 watts PEP effective radiated power relative to an isotropic radiator
B100 watts PEP effective radiated power relative to the gain of a half-wave dipole
C50 watts PEP effective radiated power relative to an isotropic radiator
D50 watts PEP effective radiated power relative to a dipole

3. - E1B12

What must the control operator of a repeater operating in the 70 cm band do if a radiolocation system experiences interference from that repeater?

SelectAnswer
AAll these choices are correct
BCease operation or make changes to the repeater to mitigate the interference
CReduce the repeater antenna HAAT (Height Above Average Terrain)
DFile an FAA NOTAM (Notice to Airmen) with the repeater system's ERP, call sign, and six-character grid locator

4. - E1C12

On what portion of the 630 meter band are phone emissions permitted?

SelectAnswer
ANone
BThe entire band
COnly the top 3 kHz
DOnly the bottom 3 kHz

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
CAll these choices are correct
DA message forwarding station or automatically controlled digital station

6. - E1E01

For which types of out-of-pocket expenses do the Part 97 rules state that VEs and VECs may be reimbursed?

SelectAnswer
APreparing, processing, administering, and coordinating an examination for an amateur radio operator license
BTeaching an amateur operator license examination preparation course
CProviding amateur operator license examination preparation training materials
DNo expenses are authorized for reimbursement

7. - E1F05

Amateur stations may not transmit in which of the following frequency segments if they are located in the contiguous 48 states and north of Line A?

SelectAnswer
A420 MHz - 430 MHz
B440 MHz - 450 MHz
C222 MHz - 223 MHz
D53 MHz - 54 MHz

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. - E2B04

How is color information sent in analog SSTV?

SelectAnswer
AColor information is sent on a 2.8 kHz subcarrier
BColor is sent in a color burst at the end of each line
CColor lines are sent sequentially
DColor is amplitude modulated on the frequency modulated intensity signal

10. - E2C08

Which of the following contacts may be confirmed through the U.S. QSL bureau system?

SelectAnswer
AContacts between a U.S. station and a non-U.S. station
BSpecial event contacts between stations in the U.S.
CContacts using tactical call signs
DRepeater contacts between U.S. club members

11. - E2D10

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

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

12. - E2E10

Which of these digital modes has the narrowest bandwidth?

SelectAnswer
APSK31
B170 Hz shift, 45-baud RTTY
C300-baud packet
DMFSK16

13. - E3A12

What is the cause of auroral activity?

SelectAnswer
AThe interaction in the F2 layer between the solar wind and the Van Allen belt
BAn extreme low-pressure area in the polar regions
CMeteor showers concentrated in the extreme northern and southern latitudes
DThe interaction in the E layer of charged particles from the Sun with the Earth's magnetic field

14. - E3B02

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

SelectAnswer
A2500 miles
B5000 miles
C1000 miles
D7500 miles

15. - E3C05

What orientation of Bz (B sub z) increases the likelihood that incoming particles from the sun will cause disturbed conditions?

SelectAnswer
ASouthward
BNorthward
CEastward
DWestward

16. - E4A06

What is the effect of aliasing on a digital oscilloscope caused by setting the time base too slow?

SelectAnswer
AAll signals will have a DC offset
BCalibration of the vertical scale is no longer valid
CA false, jittery low-frequency version of the signal is displayed
DExcessive blanking occurs, which prevents display of the signal

17. - E4B05

What three test loads are used to calibrate an RF vector network analyzer?

SelectAnswer
AShort circuit, open circuit, and resonant circuit
BShort circuit, open circuit, and 50 ohms
C50 ohms through 1/8 wavelength, 1/4 wavelength, and 1/2 wavelength of coaxial cable
D50 ohms, 75 ohms, and 90 ohms

18. - E4C06

A CW receiver with the AGC off has an equivalent input noise power density of -174 dBm/Hz. What would be the level of an unmodulated carrier input to this receiver that would yield an audio output SNR of 0 dB in a 400 Hz noise bandwidth?

SelectAnswer
A-155 dBm
B-148 dBm
C-164 dBm
D-174 dBm

19. - E4D08

What causes intermodulation in an electronic circuit?

SelectAnswer
AToo little gain
BPositive feedback
CLack of neutralization
DNonlinear circuits or devices

20. - E4E06

What is one type of electrical interference that might be caused by a nearby personal computer?

SelectAnswer
AA whining type noise that continually pulses off and on
BA loud AC hum in the audio output of your station receiver
CA clicking noise at intervals of a few seconds
DThe appearance of unstable modulated or unmodulated signals at specific frequencies

21. - E5A07

What is the magnitude of the current at the input of a parallel RLC circuit at resonance?

SelectAnswer
AL/R
BR/L
CMaximum
DMinimum

22. - E5B03

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

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

23. - E5C09

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

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

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
A1600 watts
B600 watts
C200 watts
D1000 watts

25. - E6A11

In Figure E6-1, what is the schematic symbol for a P-channel junction FET?

SelectAnswer
A1
B6
C2
D3

26. - E6B01

What is the most useful characteristic of a Zener diode?

SelectAnswer
AA negative resistance region
BAn internal capacitance that varies with the applied voltage
CA constant voltage drop under conditions of varying current
DA constant current drop under conditions of varying voltage

27. - E6C03

What is tri-state logic?

SelectAnswer
AProprietary logic devices manufactured by Tri-State Devices
BLow-power logic devices designed to operate at 3 volts
CLogic devices with 0, 1, and high-impedance output states
DLogic devices that utilize ternary math

28. - E6D01

Why should core saturation of an impedance matching transformer be avoided?

SelectAnswer
ARF susceptance would increase
BTemporary changes of the core permeability could result
CHarmonics and distortion could result
DMagnetic flux would increase with frequency

29. - E6E06

What characteristics of the MMIC make it a popular choice for VHF through microwave circuits?

SelectAnswer
ANearly infinite gain, very high input impedance, and very low output impedance
BControlled gain, low noise figure, and constant input and output impedance over the specified frequency range
CPlate current that is controlled by a control grid
DThe ability to retrieve information from a single signal even in the presence of other strong signals

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. - E7A08

What logical operation does an OR gate perform?

SelectAnswer
AIt produces logic 0 at its output if all inputs are logic 1
BIt produces logic 1 at its output if any or all inputs are logic 1
CIt only produces logic 0 at its output when all inputs are logic 1
DIt produces logic 1 at its output if all inputs are logic 0

32. - E7B13

Which of the following describes an emitter follower (or common collector) amplifier?

SelectAnswer
AA differential amplifier with both inputs fed to the emitter of the input transistor
BAn amplifier with a low impedance output that follows the base input voltage
CAn OR circuit with only one emitter used for output
DA two-transistor amplifier with the emitters sharing a common bias resistor

33. - E7C03

What advantage does a series-L Pi-L-network have over a series-L Pi-network for impedance matching between the final amplifier of a vacuum-tube transmitter and an antenna?

SelectAnswer
AGreater harmonic suppression
BHigher efficiency
CGreater transformation range
DDoes not require a capacitor

34. - E7D06

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

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

35. - E7E02

What is the function of a reactance modulator?

SelectAnswer
ATo produce AM signals by using an electrically variable inductance or capacitance
BTo produce AM signals by using an electrically variable resistance
CTo produce PM signals by using an electrically variable resistance
DTo produce PM or FM signals by using an electrically variable inductance or capacitance

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
A6 bits
B4 bits
C8 bits
D10 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. - E7H02

What is a microphonic?

SelectAnswer
AChanges in oscillator frequency due to mechanical vibration
BDistortion caused by RF pickup on the microphone cable
CAn IC used for amplifying microphone signals
DExcess loading of the microphone by an oscillator

39. - E8A01

What is the name of the process that shows that a square wave is made up of a sine wave plus all its odd harmonics?

SelectAnswer
ADifferential analysis
BNumerical analysis
CFourier analysis
DVector analysis

40. - E8B07

Orthogonal Frequency Division Multiplexing is a technique used for which type of amateur communication?

SelectAnswer
AEME
BExtremely low-power contacts
CHigh-speed digital modes
DOFDM signals are not allowed on amateur bands

41. - E8C07

What is the bandwidth of a 4800-Hz frequency shift, 9600-baud ASCII FM transmission?

SelectAnswer
A9.6 kHz
B4.8 kHz
C15.36 kHz
D5.76 kHz

42. - E8D09

What is considered an acceptable maximum IMD level for an idling PSK signal?

SelectAnswer
A+15 dB
B-20 dB
C-30 dB
D+10 dB

43. - E9A13

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

SelectAnswer
AEffective radiated power
BPower factor
CApparent power
DHalf-power bandwidth

44. - E9B04

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

SelectAnswer
A38 dB
B28 dB
C15 dB
D3 dB

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. - E9D02

How can linearly polarized Yagi antennas be used to produce circular polarization?

SelectAnswer
AArrange two Yagis perpendicular to each other with the driven elements at the same point on the boom fed 90 degrees out of phase
BArrange two Yagis collinear to each other with the driven elements fed 180 degrees out of phase
CStack two Yagis fed 90 degrees out of phase to form an array with the respective elements in parallel planes
DStack two Yagis fed in phase to form an array with the respective elements in parallel planes

47. - E9E10

Which of these choices is an effective way to match an antenna with a 100-ohm feed point impedance to a 50-ohm coaxial cable feed line?

SelectAnswer
AInsert a 1/4-wavelength piece of 75-ohm coaxial cable transmission line in series between the antenna terminals and the 50-ohm feed cable
BInsert a 1/2 wavelength piece of 300-ohm twinlead in series between the antenna terminals and the 50-ohm feed cable
CConnect a 1/2 wavelength shorted stub of 75-ohm cable in parallel with the 50-ohm cable where it attaches to the antenna
DConnect a 1/4-wavelength open stub of 300-ohm twinlead in parallel with the coaxial feed line where it connects to the antenna

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. - E9G11

How are the wavelength scales on a Smith chart calibrated?

SelectAnswer
AIn fractions of antenna electrical frequency
BIn fractions of transmission line electrical frequency
CIn fractions of antenna electrical wavelength
DIn fractions of transmission line electrical wavelength

50. - E9H10

How can the output voltage of a multiple-turn receiving loop antenna be increased?

SelectAnswer
ABy increasing the number of turns and/or the area
BBy winding adjacent turns in opposing directions
CBy reducing the permeability of the loop shield
DBy utilizing high impedance wire for the coupling loop

Figure E6-1

Figure E7-2

Figure E7-3