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

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1. - E0A05

What is one of the potential hazards of operating in the amateur radio microwave bands?

SelectAnswer
AMicrowaves often travel long distances by ionospheric reflection
BThe high gain antennas commonly used can result in high exposure levels
CMicrowaves are ionizing radiation
DThe extremely high frequency energy can damage the joints of antenna structures

2. - E1A14

Except in some parts of Alaska, what is the maximum power permitted on the 630 meter band?

SelectAnswer
A5 watts EIRP
B100 watts PEP
C50 watts PEP
D1 watt EIRP

3. - E1B04

What must be done before placing an amateur station within an officially designated wilderness area or wildlife preserve, or an area listed in the National Register of Historic Places?

SelectAnswer
AA letter of intent must be filed with the Environmental Protection Agency
BA form FSD-15 must be submitted to the Department of the Interior
CAn Environmental Assessment must be submitted to the FCC
DA proposal must be submitted to the National Park Service

4. - E1C02

Which of the following types of communications may be transmitted to amateur stations in foreign countries?

SelectAnswer
AAll these choices are correct
BCommunications incidental to the purpose of the amateur service and remarks of a personal nature
CBusiness-related messages for non-profit organizations
DMessages intended for users of the maritime satellite service

5. - E1D08

Which VHF amateur bands have frequencies authorized for space stations?

SelectAnswer
A6 meters and 2 meters
B2 meters
C2 meters and 1.25 meters
D6 meters, 2 meters, and 1.25 meters

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
BNo expenses are authorized for reimbursement
CProviding amateur operator license examination preparation training materials
DTeaching an amateur operator license examination preparation course

7. - E1F10

Who may be the control operator of an auxiliary station?

SelectAnswer
AOnly General, Advanced or Amateur Extra Class operators
BOnly Technician, General, Advanced or Amateur Extra Class operators
COnly Amateur Extra Class operators
DAny licensed amateur operator

8. - E2A04

What is meant by the term mode? as applied to an amateur radio satellite?

SelectAnswer
AWhether the satellite is in a low earth or geostationary orbit
BThe satellite's orientation with respect to the Earth
CWhether the satellite is in a polar or equatorial orbit
DThe satellite's uplink and downlink frequency bands

9. - E2B12

What signals SSTV receiving software to begin a new picture line?

SelectAnswer
AElapsed time
BSpecific tone frequencies
CSpecific tone amplitudes
DA two-tone signal

10. - E2C11

How should you generally identify your station when attempting to contact a DX station during a contest or in a pileup?

SelectAnswer
ASend your full call sign once or twice
BSend your full call sign and grid square
CSend the call sign of the DX station three times, the words this is,then your call sign three times
DSend only the last two letters of your call sign until you make contact

11. - E2D04

What technology is used to track, in real time, balloons carrying amateur radio transmitters?

SelectAnswer
ABandwidth compressed LORAN
BUltrasonics
CAPRS
DDoppler shift of beacon signals

12. - E2E05

Which of these digital modes does not support keyboard-to-keyboard operation?

SelectAnswer
AMFSK
BPACTOR
CPSK31
DRTTY

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 at apogee
CWhen the moon is at perigee
DWhen the moon is full

14. - E3B01

What is transequatorial propagation?

SelectAnswer
APropagation between points located on the magnetic equator
BPropagation between two mid-latitude points at approximately the same distance north and south of the magnetic equator
CPropagation between points at the same latitude
DPropagation between a point on the equator and its antipodal point

15. - E3C11

What does VOACAP software model?

SelectAnswer
AVHF radio propagation
BAC voltage and impedance
CAC current and impedance
DHF propagation

16. - E4A05

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

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

17. - E4B08

Which of the following can be used to measure the Q of a series-tuned circuit?

SelectAnswer
AThe inductance to capacitance ratio
BThe bandwidth of the circuit's frequency response
CThe resonant frequency of the circuit
DThe frequency shift

18. - E4C13

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

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

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
A146.10 MHz and 147.30 MHz
B146.88 MHz and 146.34 MHz
C146.34 MHz and 146.61 MHz
D173.35 MHz and 139.40 MHz

20. - E4E08

What current flows equally on all conductors of an unshielded multi-conductor cable?

SelectAnswer
AReactive current only
BCommon-mode current
CReturn current
DDifferential-mode current

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. - E5B12

What is admittance?

SelectAnswer
AThe inverse of Q factor
BThe turns ratio of a transformer
CThe inverse of impedance
DThe term for the gain of a field effect transistor

23. - E5C12

Which point on Figure E5-1 best represents the impedance of a series circuit consisting of a 300-ohm resistor and a 19-picofarad capacitor at 21.200 MHz?

SelectAnswer
APoint 7
BPoint 3
CPoint 1
DPoint 8

24. - E5D07

How many watts are consumed in a circuit having a power factor of 0.71 if the apparent power is 500VA?

SelectAnswer
A704 W
B355 W
C1.42 mW
D252 W

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

26. - E6B05

What characteristic of a PIN diode makes it useful as an RF switch?

SelectAnswer
AExtremely high reverse breakdown voltage
BReverse bias controls its forward voltage drop
CAbility to dissipate large amounts of power
DLow junction capacitance

27. - E6C04

Which of the following is an advantage of BiCMOS logic?

SelectAnswer
AIts simplicity results in much less expensive devices than standard CMOS
BIt has the high input impedance of CMOS and the low output impedance of bipolar transistors
CIt is immune to electrostatic damage
DAll these choices are correct

28. - E6D04

Which materials are commonly used as a core in an inductor?

SelectAnswer
APolystyrene and polyethylene
BCobalt and aluminum
CFerrite and brass
DTeflon and Delrin

29. - E6E08

How is power supplied to the most common type of MMIC?

SelectAnswer
AMMICs require no operating bias
BThrough a capacitor and RF choke connected to the amplifier input lead
CThrough a resistor and/or RF choke connected to the amplifier output lead
DDirectly to the bias voltage (VCC IN) lead

30. - E6F07

What is a solid-state relay?

SelectAnswer
AA device that uses semiconductors to implement the functions of an electromechanical relay
BA relay using transistors to drive the relay coil
CA semiconductor passive delay line
DA mechanical relay that latches in the on or off state each time it is pulsed

31. - E7A06

What is a characteristic of a monostable multivibrator?

SelectAnswer
AIt produces a continuous square wave oscillating between 1 and 0
BIt maintains a constant output voltage, regardless of variations in the input voltage
CIt stores one bit of data in either a 0 or 1 state
DIt switches momentarily to the opposite binary state and then returns to its original state after a set time

32. - E7B06

Which of the following amplifier types reduces even-order harmonics?

SelectAnswer
APush-pull
BClass C
CClass AB
DPush-push

33. - E7C12

What is one advantage of a Pi-matching network over an L-matching network consisting of a single inductor and a single capacitor?

SelectAnswer
APi-networks provide balanced input and output
BL-networks cannot perform impedance transformation
CPi-networks are more stable
DThe Q of Pi-networks can be controlled

34. - E7D08

What type of circuit is shown in Figure E7-2?

SelectAnswer
AGrounded emitter amplifier
BSwitching voltage regulator
CMonostable multivibrator
DLinear voltage regulator

35. - E7E01

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

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

36. - E7F13

What is the function of taps in a digital signal processing filter?

SelectAnswer
ATo reduce excess signal pressure levels
BSelect the point at which baseband signals are generated
CProvide access for debugging software
DProvide incremental signal delays for filter algorithms

37. - E7G12

What is an operational amplifier?

SelectAnswer
AAn amplifier used to increase the average output of frequency modulated amateur signals to the legal limit
BA high-gain, direct-coupled differential amplifier with very high input impedance and very low output impedance
CA digital audio amplifier whose characteristics are determined by components external to the amplifier
DA RF amplifier used in the UHF and microwave regions

38. - E7H09

What type of frequency synthesizer circuit uses a phase accumulator, lookup table, digital to analog converter, and a low-pass anti-alias filter?

SelectAnswer
AA hybrid synthesizer
BA direct digital synthesizer
CA phase-locked loop synthesizer
DA diode-switching matrix synthesizer

39. - E8A03

What type of wave does a Fourier analysis show to be made up of sine waves of a given fundamental frequency plus all its harmonics?

SelectAnswer
AA sine wave
BA sawtooth wave
CA cosine wave
DA square wave

40. - E8B11

What is digital time division multiplexing?

SelectAnswer
ATwo or more signals are quadrature modulated to increase bandwidth efficiency
BTwo or more data streams are assigned to discrete sub-carriers on an FM transmitter
CTwo or more data streams share the same channel by transmitting time of transmission as the sub-carrier
DTwo or more signals are arranged to share discrete time slots of a data transmission

41. - E8C03

Why should phase-shifting of a PSK signal be done at the zero crossing of the RF signal?

SelectAnswer
ATo improve carrier suppression
BAll these choices are correct
CTo simplify modulation
DTo minimize bandwidth

42. - E8D10

What are some of the differences between the Baudot digital code and ASCII?

SelectAnswer
ABaudot uses 7 data bits per character, ASCII uses 8; Baudot has no letters/figures shift code, ASCII uses 2 letters/figures shift codes
BBaudot 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
CBaudot 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
DBaudot 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

43. - E9A09

What is antenna efficiency?

SelectAnswer
ARadiation resistance divided by transmission resistance
BRadiation resistance divided by total resistance
CEffective radiated power divided by transmitter output
DTotal resistance divided by radiation resistance

44. - E9B11

What is a disadvantage of decreasing the number of wire segments in an antenna model below 10 segments per half-wavelength?

SelectAnswer
AGround conductivity will not be accurately modeled
BThe computed feed point impedance may be incorrect
CThe resulting design will favor radiation of harmonic energy
DThe antenna will become mechanically unstable

45. - E9C03

What is the radiation pattern of two 1/4-wavelength vertical antennas spaced 1/2-wavelength apart and fed in phase?

SelectAnswer
AOmni-directional
BCardioid
CA Figure-8 broadside to the axis of the array
DA Figure-8 end-fire along the axis of the array

46. - E9D07

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

SelectAnswer
AHigher losses
BLower Q
CGreater structural strength
DImproved radiation efficiency

47. - E9E07

What parameter describes the interactions at the load end of a mismatched transmission line?

SelectAnswer
AVelocity factor
BDielectric constant
CReflection coefficient
DCharacteristic impedance

48. - E9F04

What impedance does a 1/2-wavelength transmission line present to a generator when the line is shorted at the far end?

SelectAnswer
AVery low impedance
BThe same as the output impedance of the generator
CThe same as the characteristic impedance of the line
DVery high impedance

49. - E9G07

On the Smith chart shown in Figure E9-3, what is the only straight line shown?

SelectAnswer
AThe resistance axis
BThe reactance axis
CThe voltage axis
DThe current axis

50. - E9H03

What is Receiving Directivity Factor (RDF)?

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

Figure E5-1

Figure E7-2

Figure E9-3