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

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1. - E0A10

What toxic material may be present in some electronic components such as high voltage capacitors and transformers?

SelectAnswer
APolychlorinated biphenyls
BPolytetrafluoroethylene
CPolyethylene
DPolymorphic silicon

2. - E1A03

What is the maximum legal carrier frequency on the 20 meter band for transmitting USB AFSK digital signals having a 1 kHz bandwidth?

SelectAnswer
A14.100 MHz
B14.070 MHz
C14.349 MHz
D14.149 MHz

3. - E1B10

What frequencies are authorized to an amateur station operating under RACES rules?

SelectAnswer
AAll amateur service frequencies authorized to the control operator
BSpecific segments in the amateur service MF, HF, VHF and UHF bands
CSpecific local government channels
DMilitary Auxiliary Radio System (MARS) channels

4. - E1C11

Which of the following operating arrangements allows an FCC-licensed U.S. citizen to operate in many European countries, and alien amateurs from many European countries to operate in the U.S.?

SelectAnswer
AIARP agreement
BITU reciprocal license
CCEPT agreement
DAll these choices are correct

5. - E1D02

Which of the following may transmit special codes intended to obscure the meaning of messages?

SelectAnswer
AData containing personal information
BTelecommand signals from a space telecommand station
CAuxiliary relay links carrying repeater audio
DBinary control characters

6. - E1E02

Who does Part 97 task with maintaining the pools of questions for all U.S. amateur license examinations?

SelectAnswer
AThe ARRL
BThe FCC
CThe VECs
DThe VEs

7. - E1F06

Under what circumstances might the FCC issue a Special Temporary Authority (STA) to an amateur station?

SelectAnswer
ATo provide for experimental amateur communications
BTo allow regular operation on Land Mobile channels
CTo provide additional spectrum for personal use
DTo provide temporary operation while awaiting normal licensing

8. - E2A05

What do the letters in a satellite's mode designator specify?

SelectAnswer
APower limits for uplink and downlink transmissions
BThe uplink and downlink frequency ranges
CThe location of the ground control station
DThe polarization of uplink and downlink signals

9. - E2B05

Which of the following describes the use of vestigial sideband in analog fast-scan TV transmissions?

SelectAnswer
AVestigial sideband reduces bandwidth while allowing for simple video detector circuitry
BThe vestigial sideband carries the audio information
CThe vestigial sideband contains chroma information
DVestigial sideband provides high frequency emphasis to sharpen the picture

10. - E2C06

During a VHF/UHF contest, in which band segment would you expect to find the highest level of SSB or CW activity?

SelectAnswer
AIn the middle of each band, usually on the national calling frequency
BAt the top of each band, usually in a segment reserved for contests
CIn the weak signal segment of the band, with most of the activity near the calling frequency
DIn the middle of the band, usually 25 kHz above the national calling frequency

11. - E2D05

What is one advantage of the JT65 mode?

SelectAnswer
AUses only a 65 Hz bandwidth
BPermits fast-scan TV transmissions over narrow bandwidth
CEasily copied by ear if necessary
DThe ability to decode signals which have a very low signal-to-noise ratio

12. - E2E11

What is the difference between direct FSK and audio FSK?

SelectAnswer
AOnly direct FSK can be decoded by computer
BDirect FSK can transmit faster baud rates
CDirect FSK applies the data signal to the transmitter VFO, while AFSK transmits tones via phone
DDirect FSK occupies less bandwidth

13. - E3A09

Which of the following frequency ranges is most suited for meteor scatter communications?

SelectAnswer
A220 MHz - 450 MHz
B1.8 MHz - 1.9 MHz
C28 MHz - 148 MHz
D10 MHz - 14 MHz

14. - E3B05

Which amateur bands typically support long-path propagation?

SelectAnswer
A6 meters to 2 meters
B160 meters to 10 meters
COnly 160 meters to 40 meters
DOnly 30 meters to 10 meters

15. - E3C04

What does the value of Bz (B sub Z) represent?

SelectAnswer
ADuration of long-delayed echoes
BGeomagnetic field stability
CCritical frequency for vertical transmissions
DDirection and strength of the interplanetary magnetic field

16. - E4A08

Which of the following measures SWR?

SelectAnswer
AA spectrum analyzer
BA Q meter
CAn ohmmeter
DAn antenna analyzer

17. - E4B05

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

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

18. - E4C04

What is the noise figure of a receiver?

SelectAnswer
AThe ratio of thermal noise to atmospheric noise
BThe ratio in dB of the noise generated by the receiver to the theoretical minimum noise
CThe ratio of atmospheric noise to phase noise
DThe ratio of the noise bandwidth in hertz to the theoretical bandwidth of a resistive network

19. - E4D08

What causes intermodulation in an electronic circuit?

SelectAnswer
APositive feedback
BLack of neutralization
CNonlinear circuits or devices
DToo little gain

20. - E4E11

What could cause local AM broadcast band signals to combine to generate spurious signals in the MF or HF bands?

SelectAnswer
AOne or more of the broadcast stations is transmitting an over-modulated signal
BYour station receiver IF amplifier stage is defective
CYou are receiving skywave signals from a distant station
DNearby corroded metal joints are mixing and re-radiating the broadcast signals

21. - E5A05

What is the result of increasing the Q of an impedance-matching circuit?

SelectAnswer
AMatching bandwidth is decreased
BMatching bandwidth is increased
CMatching range is increased
DIt has no effect on impedance matching

22. - E5B06

What is susceptance?

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

23. - E5C10

Which point on Figure E5-1 best represents the impedance of a series circuit consisting of a 400-ohm resistor and a 38-picofarad capacitor at 14 MHz?

SelectAnswer
APoint 4
BPoint 5
CPoint 2
DPoint 6

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
BTo increase the thermal time constant
CTo maintain component lifetime
DAll these choices are correct

25. - E6A12

Why do many MOSFET devices have internally connected Zener diodes on the gates?

SelectAnswer
ATo protect the substrate from excessive voltages
BTo reduce the chance of static damage to the gate
CTo provide a voltage reference for the correct amount of reverse-bias gate voltage
DTo keep the gate voltage within specifications and prevent the device from overheating

26. - E6B02

What is an important characteristic of a Schottky diode as compared to an ordinary silicon diode when used as a power supply rectifier?

SelectAnswer
ALonger carrier retention time
BMore constant reverse avalanche voltage
CMuch higher reverse voltage breakdown
DLess forward voltage drop

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
CBandwidth is very limited
DThe input switching threshold is about two times the power supply voltage

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. - E6E11

What is a characteristic of DIP packaging used for integrated circuits?

SelectAnswer
ALow leakage doubly insulated package
BTwo chips in each package (Dual In Package)
CA total of two rows of connecting pins placed on opposite sides of the package (Dual In-line Package)
DPackage mounts in a direct inverted position

30. - E6F09

What is the efficiency of a photovoltaic cell?

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

31. - E7A01

Which circuit is bistable?

SelectAnswer
AAn OR gate
BA flip-flop
CAn AND gate
DA bipolar amplifier

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
CA two-transistor amplifier with the emitters sharing a common bias resistor
DAn OR circuit with only one emitter used for output

33. - E7C06

What are the distinguishing features of an elliptical filter?

SelectAnswer
AGradual passband rolloff with minimal stop band ripple
BExtremely sharp cutoff with one or more notches in the stop band
CGradual passband rolloff with extreme stop band ripple
DExtremely flat response over its pass band with gradually rounded stop band corners

34. - E7D07

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

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

35. - E7E10

How does a diode envelope detector function?

SelectAnswer
ABy rectification and filtering of RF signals
BBy breakdown of the Zener voltage
CBy sensing the change of reactance in the diode with respect to frequency
DBy mixing signals with noise in the transition region of the diode

36. - E7F08

What is the function of decimation?

SelectAnswer
AAttenuating the signal
BReducing the effective sample rate by removing samples
CConverting data to binary code decimal form
DRemoving unnecessary significant digits

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
B-2.3 volts
C0.23 volts
D2.3 volts

38. - E7H03

How is positive feedback supplied in a Hartley oscillator?

SelectAnswer
AThrough link coupling
BThrough a capacitive divider
CThrough a tapped coil
DThrough a neutralizing capacitor

39. - E8A04

What is "dither" with respect to analog-to-digital converters?

SelectAnswer
AAn error caused by irregular quantization step size
BA small amount of noise added to the input signal to allow more precise representation of a signal over time
CAn abnormal condition where the converter cannot settle on a value to represent the signal
DA method of decimation by randomly skipping samples

40. - E8B10

What is frequency division multiplexing?

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

41. - E8C09

Which digital code allows only one bit to change between sequential code values?

SelectAnswer
AGray code
BExcess 3 code
CBinary Coded Decimal Code
DExtended Binary Coded Decimal Interchange Code

42. - E8D03

How does the spread spectrum technique of frequency hopping work?

SelectAnswer
AA binary bit stream is used to shift the phase of an RF carrier very rapidly in a pseudorandom sequence
BIf interference is detected by the receiver it will signal the transmitter to change frequencies
CIf interference is detected by the receiver it will signal the transmitter to wait until the frequency is clear
DThe frequency of the transmitted signal is changed very rapidly according to a pseudorandom sequence also used by the receiving station

43. - E9A09

What is antenna efficiency?

SelectAnswer
ARadiation resistance divided by total resistance
BTotal resistance divided by radiation resistance
CRadiation resistance divided by transmission resistance
DEffective radiated power divided by transmitter output

44. - E9B05

What type of antenna pattern is shown in Figure E9-2?

SelectAnswer
ARadiation resistance
BPolarization
CElevation
DAzimuth

45. - E9C07

What is the approximate feed point impedance at the center of a two-wire folded dipole antenna?

SelectAnswer
A300 ohms
B450 ohms
C50 ohms
D72 ohms

46. - E9D03

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

SelectAnswer
AAt a voltage node
BAs low as possible on the vertical radiator
CNear the center of the vertical radiator
DAs close to the transmitter as possible

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

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
AThe same as the characteristic impedance of the line
BThe same as the output impedance of the generator
CVery low impedance
DVery high impedance

49. - E9G11

How are the wavelength scales on a Smith chart calibrated?

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

50. - E9H11

What feature of a cardioid pattern antenna makes it useful for direction finding?

SelectAnswer
AA very sharp single null
BBroadband response
CHigh radiation angle
DA very sharp peak

Figure E5-1

Figure E7-2

Figure E7-3

Figure E9-2