SWOT guide created from FCCExtra 2016 -Tests.txt
Created 10/08/2019 12:35:07 PM
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1.  When using a transceiver that displays the carrier frequency of phone signals, which of the following displayed frequencies represents the highest frequency at which a properly adjusted USB emission will be totally within the band?
---> 3 kHz below the upper band edge

2.  When using a transceiver that displays the carrier frequency of phone signals, which of the following displayed frequencies represents the lowest frequency at which a properly adjusted LSB emission will be totally within the band?
---> 3 kHz above the lower band edge

3.  With your transceiver displaying the carrier frequency of phone signals, you hear a station calling CQ on 14.349 MHz USB. Is it legal to return the call using upper sideband on the same frequency?
--->  No, the sideband will extend beyond the band edge

4.  With your transceiver displaying the carrier frequency of phone signals, you hear a DX station calling CQ on 3.601 MHz LSB. Is it legal to return the call using lower sideband on the same frequency?
--->  No, the sideband will extend beyond the edge of the phone band segment

5.  What is the maximum power output permitted on the 60 meter band?
--->  100 watts PEP effective radiated power relative to the gain of a half-wave dipole

6.  Where must the carrier frequency of a CW signal be set to comply with FCC rules for 60 meter operation?
--->  At the center frequency of the channel

7.  Which amateur band requires transmission on specific channels rather than on a range of frequencies?
---> 60 meter band

8.  If a station in a message forwarding system inadvertently forwards a message that is in violation of FCC rules, who is primarily accountable for the rules violation?
--->  The control operator of the originating station

9.  What is the first action you should take if your digital message forwarding station inadvertently forwards a communication that violates FCC rules?
--->  Discontinue forwarding the communication as soon as you become aware of it

10.  If an amateur station is installed aboard a ship or aircraft, what condition must be met before the station is operated?
--->  Its operation must be approved by the master of the ship or the pilot in command of the aircraft

11.  Which of the following describes authorization or licensing required when operating an amateur station aboard a U.S.-registered vessel in international waters?
--->  Any FCC-issued amateur license

12.  With your transceiver displaying the carrier frequency of CW signals, you hear a DX station's CQ on 3.500 MHz. Is it legal to return the call using CW on the same frequency?
--->  No, one of the sidebands of the CW signal will be out of the band

13.  Who must be in physical control of the station apparatus of an amateur station aboard any vessel or craft that is documented or registered in the United States?
--->  Any person holding an FCC issued amateur license or who is authorized for alien reciprocal operation

14.  What is the maximum bandwidth for a data emission on 60 meters?
---> 2.8 kHz

15.  Which of the following constitutes a spurious emission?
---> An emission outside its necessary bandwidth that can be reduced or eliminated without affecting the information transmitted

16.  Which of the following factors might cause the physical location of an amateur station apparatus or antenna structure to be restricted?
---> The location is of environmental importance or significant in American history, architecture, or culture

17.  Within what distance must an amateur station protect an FCC monitoring facility from harmful interference?
--->  1 mile

18.  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 Historical Places?
--->  An Environmental Assessment must be submitted to the FCC

19.  What is the National Radio Quiet Zone?
--->  An area surrounding the National Radio Astronomy Observatory

20.  Which of the following additional rules apply if you are installing an amateur station antenna at a site at or near a public use airport?
--->  You may have to notify the Federal Aviation Administration and register it with the FCC as required by Part 17 of FCC rules

21.  What is the highest modulation index permitted at the highest modulation frequency for angle modulation below 29.0 MHz?
--->  1.0

22.  What limitations may the FCC place on an amateur station if its signal causes interference to domestic broadcast reception, assuming that the receivers involved are of good engineering design?
---> The amateur station must avoid transmitting during certain hours on frequencies that cause the interference

23.  Which amateur stations may be operated under RACES rules?
--->  Any FCC-licensed amateur station certified by the responsible civil defense organization for the area served

24.  What frequencies are authorized to an amateur station operating under RACES rules?
--->  All amateur service frequencies authorized to the control operator

25.  What is the permitted mean power of any spurious emission relative to the mean power of the fundamental emission from a station transmitter or external RF amplifier installed after January 1, 2003 and transmitting on a frequency below 30 MHZ?
--->  At least 43 dB below

26.  What is a remotely controlled station?
---> A station controlled indirectly through a control link

27.  What is meant by automatic control of a station?
--->  The use of devices and procedures for control so that the control operator does not have to be present at a control point

28.  How do the control operator responsibilities of a station under automatic control differ from one under local control?
--->  Under automatic control the control operator is not required to be present at the control point

29.  What is meant by IARP?
--->  An international amateur radio permit that allows U.S. amateurs to operate in certain countries of the Americas

30.  When may an automatically controlled station originate third party communications?
--->  Never

31.  Which of the following statements concerning remotely controlled amateur stations is true?
--->  A control operator must be present at the control point

32.  What is meant by local control?
--->  Direct manipulation of the transmitter by a control operator

33.  What is the maximum permissible duration of a remotely controlled stations transmissions if its control link malfunctions?
--->  3 minutes

34.  Which of these ranges of frequencies is available for an automatically controlled repeater operating below 30 MHz?
---> 29.500 MHz - 29.700 MHz

35.  What types of amateur stations may automatically retransmit the radio signals of other amateur stations?
--->  Only auxiliary, repeater or space stations

36.  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.?
--->  CEPT agreement

37.  What types of communications may be transmitted to amateur stations in foreign countries?
--->  Communications incidental to the purpose of the amateur service and remarks of a personal nature

38.  Which of the following is required in order to operate in accordance with CEPT rules in foreign countries where permitted?
--->  You must bring a copy of FCC Public Notice DA 11-221

39.  What is the definition of the term telemetry?
--->  One-way transmission of measurements at a distance from the measuring instrument

40.  What is the amateur satellite service?
--->  A radio communications service using amateur radio stations on satellites

41.  What is a telecommand station in the amateur satellite service?
--->  An amateur station that transmits communications to initiate, modify or terminate functions of a space station

42.  What is an Earth station in the amateur satellite service?
--->  An amateur station within 50 km of the Earth's surface intended for communications with amateur stations by means of objects in space

43.  What class of licensee is authorized to be the control operator of a space station?
--->  Any class with appropriate operator privileges

44.  Which of the following is a requirement of a space station?
--->  The space station must be capable of terminating transmissions by telecommand when directed by the FCC

45.  Which amateur service HF bands have frequencies authorized for space stations?
--->  Only the 40 m, 20 m, 17 m, 15 m, 12 m and 10 m bands

46.  Which VHF amateur service bands have frequencies available for space stations?
---> 2 meters

47.  Which UHF amateur service bands have frequencies available for a space station?
--->  70 cm and 13 cm

48.  Which amateur stations are eligible to be telecommand stations?
--->  Any amateur station so designated by the space station licensee, subject to the privileges of the class of operator license held by the control operator

49.  Which amateur stations are eligible to operate as Earth stations?
---> Any amateur station, subject to the privileges of the class of operator license held by the control operator

50.  What is the minimum number of qualified VEs required to administer an Element 4 amateur operator license examination?
---> 3

51.  Where are the questions for all written U.S. amateur license examinations listed?
--->  In a question pool maintained by all the VECs

52.  What is a Volunteer Examiner Coordinator?
--->  An organization that has entered into an agreement with the FCC to coordinate amateur operator license examinations

53.  Which of the following best describes the Volunteer Examiner accreditation process?
---> The procedure by which a VEC confirms that the VE applicant meets FCC requirements to serve as an examiner

54.  What is the minimum passing score on amateur operator license examinations?
--->  Minimum passing score of 74%

55.  Who is responsible for the proper conduct and necessary supervision during an amateur operator license examination session?
--->  Each administering VE

56.  What should a VE do if a candidate fails to comply with the examiners instructions during an amateur operator license examination?
--->  Immediately terminate the candidates examination

57.  To which of the following examinees may a VE not administer an examination?
--->  Relatives of the VE as listed in the FCC rules

58.  What may be the penalty for a VE who fraudulently administers or certifies an examination?
--->  Revocation of the VE's amateur station license grant and the suspension of the VE's amateur operator license grant

59.  What must the administering VEs do after the administration of a successful examination for an amateur operator license?
--->  They must submit the application document to the coordinating VEC according to the coordinating VEC instructions

60.  What must the VE team do if an examinee scores a passing grade on all examination elements needed for an upgrade or new license?
--->  Three VEs must certify that the examinee is qualified for the license grant and that they have complied with the administering VE requirements

61.  What must the VE team do with the application form if the examinee does not pass the exam?
--->  Return the application document to the examinee

62.  Which of these choices is an acceptable method for monitoring the applicants if a VEC opts to conduct an exam session remotely?
--->  Use a real-time video link and the Internet to connect the exam session to the observing VEs

63.  For which types of out-of-pocket expenses do the Part 97 rules state that VEs and VECs may be reimbursed?
--->  Preparing, processing, administering and coordinating an examination for an amateur radio license

64.  On what frequencies are spread spectrum transmissions permitted?
--->  Only on amateur frequencies above 222 MHz

65.  What privileges are authorized in the U.S. to persons holding an amateur service license granted by the Government of Canada?
--->  The operating terms and conditions of the Canadian amateur service license, not to exceed U.S. Extra Class privileges

66.  Under what circumstances may a dealer sell an external RF power amplifier capable of operation below 144 MHz if it has not been granted FCC certification?
--->  It was purchased in used condition from an amateur operator and is sold to another amateur operator for use at that operator's station

67.  Which of the following geographic descriptions approximately describes "Line A"?
--->  A line roughly parallel to and south of the U.S.-Canadian border

68.  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?
---> 420 MHz - 430 MHz

69.  Under what circumstances might the FCC issue a Special Temporary Authority (STA) to an amateur station?
--->  To provide for experimental amateur communications

70.  When may an amateur station send a message to a business?
---> When neither the amateur nor his or her employer has a pecuniary interest in the communications

71.  Which of the following types of amateur station communications are prohibited?
--->  Communications transmitted for hire or material compensation, except as otherwise provided in the rules

72.  Which of the following conditions apply when transmitting spread spectrum emission?
..... A station transmitting SS emission must not cause harmful interference to other stations employing other authorized emissions
..... The transmitting station must be in an area regulated by the FCC or in a country that permits SS emissions
..... The transmission must not be used to obscure the meaning of any communication
--->  ALL OF THESE CHOICES ARE CORRECT

73.  What is the maximum permitted transmitter peak envelope power for an amateur station transmitting spread spectrum communications?
--->  10 W

74.  Which of the following best describes one of the standards that must be met by an external RF power amplifier if it is to qualify for a grant of FCC certification?
---> It must satisfy the FCC's spurious emission standards when operated at the lesser of 1500 watts or its full output power

75.  Who may be the control operator of an auxiliary station?
--->  Only Technician, General, Advanced or Amateur Extra Class operators

76.  What is the direction of an ascending pass for an amateur satellite?
--->  From south to north

77.  What is the direction of a descending pass for an amateur satellite?
--->  From north to south

78.  What is the orbital period of an Earth satellite?
--->  The time it takes for a satellite to complete one revolution around the Earth

79.  What is meant by the term mode as applied to an amateur radio satellite?
--->  The satellite's uplink and downlink frequency bands

80.  What do the letters in a satellite's mode designator specify?
---> The uplink and downlink frequency ranges

81.  On what band would a satellite receive signals if it were operating in mode U/V?
--->  435 MHz - 438 MHz

82.  Which of the following types of signals can be relayed through a linear transponder?
..... FM and CW
..... SSB and SSTV
..... PSK and Packet
--->  ALL OF THESE CHOICES ARE CORRECT

83.  Why should effective radiated power to a satellite which uses a linear transponder be limited?
--->  To avoid reducing the downlink power to all other users

84.  What do the terms L band and S band specify with regard to satellite communications?
--->  The 23 centimeter and 13 centimeter bands

85.  Why may the received signal from an amateur satellite exhibit a rapidly repeating fading effect?
--->  Because the satellite is spinning

86.  What type of antenna can be used to minimize the effects of spin modulation and Faraday rotation?
--->  A circularly polarized antenna

87.  What is one way to predict the location of a satellite at a given time?
---> By calculations using the Keplerian elements for the specified satellite

88.  What type of satellite appears to stay in one position in the sky?
--->  Geostationary

89.  What technology is used to track, in real time, balloons carrying amateur radio transmitters?
--->  APRS

90.  How many times per second is a new frame transmitted in a fast-scan (NTSC) television system?
--->  30

91.  How many horizontal lines make up a fast-scan (NTSC) television frame?
--->  525

92.  What is blanking in a video signal?
--->  Turning off the scanning beam while it is traveling from right to left or from bottom to top

93.  Which of the following is an advantage of using vestigial sideband for standard fast- scan TV transmissions?
--->  Vestigial sideband reduces bandwidth while allowing for simple video detector circuitry

94.  What is vestigial sideband modulation?
--->  Amplitude modulation in which one complete sideband and a portion of the other are transmitted

95.  What is the name of the signal component that carries color information in NTSC video?
--->  Chroma

96.  Which of the following is a common method of transmitting accompanying audio with amateur fast-scan television?
..... Frequency-modulated sub-carrier
..... A separate VHF or UHF audio link
..... Frequency modulation of the video carrier
--->  ALL OF THESE CHOICES ARE CORRECT

97.  What hardware, other than a receiver with SSB capability and a suitable computer, is needed to decode SSTV using Digital Radio Mondiale (DRM)?
---> No other hardware is needed

98.  Which of the following is an acceptable bandwidth for Digital Radio Mondiale (DRM) based voice or SSTV digital transmissions made on the HF amateur bands?
--->  3 KHz

99.  What is the function of the Vertical Interval Signaling (VIS) code sent as part of an SSTV transmission?
--->  To identify the SSTV mode being used

100.  How are analog SSTV images typically transmitted on the HF bands?
---> Varying tone frequencies representing the video are transmitted using single sideband

101.  How many lines are commonly used in each frame of an amateur slow-scan color television picture?
--->  128 or 256

102.  What aspect of an amateur slow-scan television signal encodes the brightness of the picture?
--->  Tone frequency

103.  What signals SSTV receiving equipment to begin a new picture line?
--->  Specific tone frequencies

104.  Which is a video standard used by North American Fast Scan ATV stations?
---> NTSC

105.  What is the approximate bandwidth of a slow-scan TV signal?
--->  3 kHz

106.  On which of the following frequencies is one likely to find FM ATV transmissions?
---> 1255 MHz

107.  What special operating frequency restrictions are imposed on slow scan TV transmissions?
--->  They are restricted to phone band segments and their bandwidth can be no greater than that of a voice signal of the same modulation type

108.  Which of the following is true about contest operating?
--->  Operators are permitted to make contacts even if they do not submit a log

109.  Which of the following best describes the term self-spotting in regards to HF contest operating?
--->  The generally prohibited practice of posting ones own call sign and frequency on a spotting network

110.  From which of the following bands is amateur radio contesting generally excluded?
--->  30 m

111.  What type of transmission is most often used for a ham radio mesh network?
--->  Spread spectrum in the 2.4 GHz band

112.  What is the function of a DX QSL Manager?
--->  To handle the receiving and sending of confirmation cards for a DX station

113.  During a VHF/UHF contest, in which band segment would you expect to find the highest level of activity?
--->  In the weak signal segment of the band, with most of the activity near the calling frequency

114.  What is the Cabrillo format?
--->  A standard for submission of electronic contest logs

115.  Which of the following contacts may be confirmed through the U.S. QSL bureau system?
--->  Contacts between a U.S. station and a non-U.S. station

116.  What type of equipment is commonly used to implement a ham radio mesh network?
--->  A standard wireless router running custom software

117.  Why might a DX station state that they are listening on another frequency?
..... Because the DX station may be transmitting on a frequency that is prohibited to some responding stations
..... To separate the calling stations from the DX station
..... To improve operating efficiency by reducing interference
--->  ALL OF THESE CHOICES ARE CORRECT

118.  How should you generally identify your station when attempting to contact a DX station during a contest or in a pileup?
--->  Send your full call sign once or twice

119.  What might help to restore contact when DX signals become too weak to copy across an entire HF band a few hours after sunset?
--->  Switch to a lower frequency HF band

120.  What indicator is required to be used by U.S.-licensed operators when operating a station via remote control where the transmitter is located in the U.S.?
---> No additional indicator is required

121.  Which of the following digital modes is especially designed for use for meteor scatter signals?
--->  FSK441

122.  Which of the following is a good technique for making meteor scatter contacts?
..... 15 second timed transmission sequences with stations alternating based on location
..... Use of high speed CW or digital modes
..... Short transmission with rapidly repeated call signs and signal reports
--->  ALL OF THESE CHOICES ARE CORRECT

123.  Which of the following digital modes is especially useful for EME communications?
---> JT65

124.  What is the purpose of digital store-and-forward functions on an Amateur Radio satellite?
--->  To store digital messages in the satellite for later download by other stations

125.  Which of the following techniques is normally used by low Earth orbiting digital satellites to relay messages around the world?
--->  Store-and-forward

126.  Which of the following describes a method of establishing EME contacts?
--->  Time synchronous transmissions alternately from each station

127.  What digital protocol is used by APRS?
--->  AX.25

128.  What type of packet frame is used to transmit APRS beacon data?
--->  Unnumbered Information

129.  Which of these digital modes has the fastest data throughput under clear communication conditions? 
---> 300 baud packet

130.  How can an APRS station be used to help support a public service communications activity?
--->  An APRS station with a GPS unit can automatically transmit information to show a mobile station's position during the event

131.  Which of the following data are used by the APRS network to communicate your location?
---> Latitude and longitude

132.  How does JT65 improve EME communications?
--->  It can decode signals many dB below the noise floor using FEC

133.  What type of modulation is used for JT65 contacts?
--->  Multi-tone AFSK

134.  What is one advantage of using JT65 coding?
--->  The ability to decode signals which have a very low signal to noise ratio

135.  Which type of modulation is common for data emissions below 30 MHz?
--->  FSK

136.  What do the letters FEC mean as they relate to digital operation?
--->  Forward Error Correction

137.  How is the timing of JT65 contacts organized?
--->  Alternating transmissions at 1 minute intervals

138.  What is indicated when one of the ellipses in an FSK crossed-ellipse display suddenly disappears?
--->  Selective fading has occurred

139.  Which type of digital mode does not support keyboard-to-keyboard operation?
--->  Winlink

140.  What is the most common data rate used for HF packet?
--->  300 baud

141.  What is the typical bandwidth of a properly modulated MFSK16 signal?
--->  316 Hz

142.  Which of the following HF digital modes can be used to transfer binary files?
--->  PACTOR

143.  Which of the following HF digital modes uses variable-length coding for bandwidth efficiency?
---> PSK31

144.  Which of these digital modes has the narrowest bandwidth?
--->  PSK31

145.  What is the difference between direct FSK and audio FSK?
--->  Direct FSK applies the data signal to the transmitter VFO

146.  Which type of control is used by stations using the Automatic Link Enable (ALE) protocol?
--->  Automatic

147.  Which of the following is a possible reason that attempts to initiate contact with a digital station on a clear frequency are unsuccessful?
..... Your transmit frequency is incorrect
..... The protocol version you are using is not the supported by the digital station
..... Another station you are unable to hear is using the frequency
--->  ALL OF THESE CHOICES ARE CORRECT

148.  What is the approximate maximum separation measured along the surface of the Earth between two stations communicating by Moon bounce?
---> 12,000 miles, if the Moon is visible by both stations

149.  What characterizes libration fading of an EME signal?
--->  A fluttery irregular fading

150.  When scheduling EME contacts, which of these conditions will generally result in the least path loss?
--->  When the Moon is at perigee

151.  What do Hepburn maps predict?
---> Probability of tropospheric propagation

152.  Tropospheric propagation of microwave signals often occurs along what weather related structure?
--->  Warm and cold fronts

153.  Which of the following is required for microwave propagation via rain scatter?
--->  The rain must be within radio range of both stations

154.  Atmospheric ducts capable of propagating microwave signals often form over what geographic feature?
--->  Bodies of water

155.  When a meteor strikes the Earth's atmosphere, a cylindrical region of free electrons is formed at what layer of the ionosphere?
--->  The E layer

156.  Which of the following frequency range is most suited for meteor scatter communications?
--->  28 MHz - 148 MHz

157.  Which type of atmospheric structure can create a path for microwave propagation?
--->  Temperature inversion

158.  What is a typical range for tropospheric propagation of microwave signals?
--->  100 miles to 300 miles

159.  What is the cause of auroral activity?
--->  The interaction in the E layer of charged particles from the Sun with the Earths magnetic field

160.  Which emission mode is best for aurora propagation?
--->  CW

161.  From the contiguous 48 states, in which approximate direction should an antenna be pointed to take maximum advantage of aurora propagation?
--->  North

162.  What is an electromagnetic wave?
--->  A wave consisting of an electric field and a magnetic field oscillating at right angles to each other

163.  Which of the following best describes electromagnetic waves traveling in free space?
---> Changing electric and magnetic fields propagate the energy

164.  What is meant by circularly polarized electromagnetic waves?
--->  Waves with a rotating electric field

165.  What is transequatorial propagation?
--->  Propagation between two mid-latitude points at approximately the same distance north and south of the magnetic equator

166.  What is the approximate maximum range for signals using transequatorial propagation?
--->  5000 miles

167.  What is the best time of day for transequatorial propagation?
--->  Afternoon or early evening

168.  What is meant by the terms extraordinary and ordinary waves?
--->  Independent waves created in the ionosphere that are elliptically polarized

169.  Which amateur bands typically support long-path propagation?
--->  160 meters to 10 meters

170.  Which of the following amateur bands most frequently provides long-path propagation?
--->  20 meters

171.  Which of the following could account for hearing an echo on the received signal of a distant station?
---> Receipt of a signal by more than one path

172.  What type of HF propagation is probably occurring if radio signals travel along the terminator between daylight and darkness?
---> Gray-line

173.  At what time of year is Sporadic E propagation most likely to occur?
--->  Around the solstices, especially the summer solstice

174.  What is the cause of gray-line propagation?
--->  At twilight and sunrise, D-layer absorption is low while E-layer and F-layer propagation remains high

175.  At what time of day is Sporadic-E propagation most likely to occur?
---> Any time

176.  What is the primary characteristic of chordal hop propagation?
--->  Successive ionospheric reflections without an intermediate reflection from the ground

177.  Why is chordal hop propagation desirable?
--->  The signal experiences less loss along the path compared to normal skip propagation

178.  What happens to linearly polarized radio waves that split into ordinary and extraordinary waves in the ionosphere?
--->  They become elliptically polarized

179.  What does the term ray tracing describe in regard to radio communications?
--->  Modeling a radio wave's path through the ionosphere

180.  What is indicated by a rising A or K index?
--->  Increasing disruption of the geomagnetic field

181.  Which of the following signal paths is most likely to experience high levels of absorption when the A index or K index is elevated?
--->  Polar paths

182.  What does the value of Bz (B sub Z) represent?
--->  Direction and strength of the interplanetary magnetic field

183.  What orientation of Bz (B sub z) increases the likelihood that incoming particles from the Sun will cause disturbed conditions?
--->  Southward

184.  By how much does the VHF/UHF radio horizon distance exceed the geometric horizon?
--->  By approximately 15 percent of the distance

185.  Which of the following descriptors indicates the greatest solar flare intensity?
---> Class X

186.  What does the space weather term G5 mean?
--->  An extreme geomagnetic storm

187.  How does the intensity of an X3 flare compare to that of an X2 flare?
--->  Twice as great

188.  What does the 304A solar parameter measure?
--->  UV emissions at 304 angstroms, correlated to solar flux index

189.  What does VOACAP software model?
--->  HF propagation

190.  How does the maximum distance of ground-wave propagation change when the signal frequency is increased?
--->  It decreases

191.  What type of polarization is best for ground-wave propagation?
--->  Vertical

192.  Why does the radio-path horizon distance exceed the geometric horizon?
---> Downward bending due to density variations in the atmosphere

193.  What might a sudden rise in radio background noise indicate?
--->  A solar flare has occurred

194.  Which of the following parameter determines the bandwidth of a digital or computer-based oscilloscope?
--->  Sampling rate

195.  Which of the following parameters would a spectrum analyzer display on the vertical and horizontal axes?
--->  RF amplitude and frequency

196.  Which of the following test instrument is used to display spurious signals and/or intermodulation distortion products in an SSB transmitter?
--->  A spectrum analyzer

197.  What determines the upper frequency limit for a computer soundcard-based oscilloscope program?
--->  Analog-to-digital conversion speed of the soundcard

198.  What might be an advantage of a digital vs an analog oscilloscope?
..... Automatic amplitude and frequency numerical readout
..... Storage of traces for future reference
..... Manipulation of time base after trace capture
--->  ALL OF THESE CHOICES ARE CORRECT

199.  What is the effect of aliasing in a digital or computer-based oscilloscope?
--->  False signals are displayed

200.  Which of the following is an advantage of using an antenna analyzer compared to an SWR bridge to measure antenna SWR?
--->  Antenna analyzers do not need an external RF source

201.  Which of the following instrument would be best for measuring the SWR of a beam antenna?
---> An antenna analyzer

202.  When using a computers soundcard input to digitize signals, what is the highest frequency signal that can be digitized without aliasing?
--->  One-half the sample rate

203.  Which of the following displays multiple digital signal states simultaneously?
---> Logic analyzer

204.  Which of the following is good practice when using an oscilloscope probe?
--->  Keep the signal ground connection of the probe as short as possible

205.  Which of the following procedures is an important precaution to follow when connecting a spectrum analyzer to a transmitter output?
--->  Attenuate the transmitter output going to the spectrum analyzer

206.  How is the compensation of an oscilloscope probe typically adjusted?
--->  A square wave is displayed and the probe is adjusted until the horizontal portions of the displayed wave are as nearly flat as possible

207.  What is the purpose of the prescaler function on a frequency counter?
---> It divides a higher frequency signal so a low-frequency counter can display the input frequency

208.  What is an advantage of a period-measuring frequency counter over a direct-count type?
--->  It provides improved resolution of low-frequency signals within a comparable time period

209.  Which of the following factors most affects the accuracy of a frequency counter?
--->  Time base accuracy

210.  What is an advantage of using a bridge circuit to measure impedance?
--->  It is very precise in obtaining a signal null

211.  If a frequency counter with a specified accuracy of +/- 1.0 ppm reads 146,520,000 Hz, what is the most the actual frequency being measured could differ from the reading?
--->  146.52 Hz

212.  If a frequency counter with a specified accuracy of +/- 0.1 ppm reads 146,520,000 Hz, what is the most the actual frequency being measured could differ from the reading?
--->  14.652 Hz

213.  If a frequency counter with a specified accuracy of +/- 10 ppm reads 146,520,000 Hz, what is the most the actual frequency being measured could differ from the reading?
---> 1465.20 Hz

214.  How much power is being absorbed by the load when a directional power meter connected between a transmitter and a terminating load reads 100 watts forward power and 25 watts reflected power?
---> 75 watts

215.  What do the subscripts of S parameters represent?
--->  The port or ports at which measurements are made

216.  Which of the following is a characteristic of a good DC voltmeter?
--->  High impedance input

217.  What is indicated if the current reading on an RF ammeter placed in series with the antenna feed line of a transmitter increases as the transmitter is tuned to resonance?
---> There is more power going into the antenna

218.  Which of the following describes a method to measure intermodulation distortion in an SSB transmitter?
--->  Modulate the transmitter with two non-harmonically related audio frequencies and observe the RF output with a spectrum analyzer

219.  How should an antenna analyzer be connected when measuring antenna resonance and feed point impedance?
---> Connect the antenna feed line directly to the analyzer's connector

220.  What is the significance of voltmeter sensitivity expressed in ohms per volt?
--->  The full scale reading of the voltmeter multiplied by its ohms per volt rating will indicate the input impedance of the voltmeter

221.  Which S parameter is equivalent to forward gain?
--->  S21

222.  What happens if a dip meter is too tightly coupled to a tuned circuit being checked?
--->  A less accurate reading results

223.  Which of the following can be used as a relative measurement of the Q for a series-tuned circuit?
--->  The bandwidth of the circuit's frequency response

224.  Which S parameter represents return loss or SWR?
--->  S11

225.  What three test loads are used to calibrate a standard RF vector network analyzer?
--->  Short circuit, open circuit, and 50 ohms

226.  What is an effect of excessive phase noise in the local oscillator section of a receiver?
---> It can cause strong signals on nearby frequencies to interfere with reception of weak signals

227.  Which of the following portions of a receiver can be effective in eliminating image signal interference?
--->  A front-end filter or pre-selector

228.  What is the term for the blocking of one FM phone signal by another, stronger FM phone signal?
--->  Capture effect

229.  How is the noise figure of a receiver defined?
---> The ratio in dB of the noise generated by the receiver to the theoretical minimum noise

230.  What does a value of -174 dBm/Hz represent with regard to the noise floor of a receiver?
--->  The theoretical noise at the input of a perfect receiver at room temperature

231.  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?
---> -148 dBm

232.  What does the MDS of a receiver represent?
--->  The minimum discernible signal

233.  An SDR receiver is overloaded when input signals exceed what level?
--->  The maximum count value of the analog-to-digital converter

234.  Which of the following choices is a good reason for selecting a high frequency for the design of the IF in a conventional HF or VHF communications receiver?
--->  Easier for front-end circuitry to eliminate image responses

235.  Which of the following is a desirable amount of selectivity for an amateur RTTY HF receiver?
--->  300 Hz

236.  Which of the following is a desirable amount of selectivity for an amateur SSB phone receiver?
--->  2.4 kHz

237.  What is an undesirable effect of using too wide a filter bandwidth in the IF section of a receiver?
---> Undesired signals may be heard

238.  How does a narrow-band roofing filter affect receiver performance?
--->  It improves dynamic range by attenuating strong signals near the receive frequency

239.  What transmit frequency might generate an image response signal in a receiver tuned to 14.300 MHz and which uses a 455 kHz IF frequency?
---> 15.210 MHz

240.  What is usually the primary source of noise that is heard from an HF receiver with an antenna connected?
---> Atmospheric noise

241.  Which of the following is caused by missing codes in an SDR receivers analog-to-digital converter?
--->  Distortion

242.  Which of the following has the largest effect on an SDR receivers linearity?
---> Analog-to-digital converter sample width in bits

243.  What is meant by the blocking dynamic range of a receiver?
--->  The difference in dB between the noise floor and the level of an incoming signal which will cause 1 dB of gain compression

244.  Which of the following describes two problems caused by poor dynamic range in a communications receiver?
--->  Cross-modulation of the desired signal and desensitization from strong adjacent signals

245.  How can intermodulation interference between two repeaters occur?
--->  When the repeaters are in close proximity and the signals mix in the final amplifier of one or both transmitters

246.  Which of the following may reduce or eliminate intermodulation interference in a repeater caused by another transmitter operating in close proximity?
--->  A properly terminated circulator at the output of the transmitter

247.  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?
--->  146.34 MHz and 146.61 MHz

248.  What is the term for unwanted signals generated by the mixing of two or more signals?
---> Intermodulation interference

249.  Which describes the most significant effect of an off-frequency signal when it is causing cross-modulation interference to a desired signal?
---> The off-frequency unwanted signal is heard in addition to the desired signal

250.  What causes intermodulation in an electronic circuit?
--->  Nonlinear circuits or devices

251.  What is the purpose of the preselector in a communications receiver?
--->  To increase rejection of unwanted signals

252.  What does a third-order intercept level of 40 dBm mean with respect to receiver performance?
--->  A pair of 40 dBm signals will theoretically generate a third-order intermodulation product with the same level as the input signals

253.  Why are third-order intermodulation products created within a receiver of particular interest compared to other products?
--->  The third-order product of two signals which are in the band of interest is also likely to be within the band

254.  What is the term for the reduction in receiver sensitivity caused by a strong signal near the received frequency?
--->  Desensitization

255.  Which of the following can cause receiver desensitization?
--->  Strong adjacent channel signals

256.  Which of the following is a way to reduce the likelihood of receiver desensitization?
--->  Decrease the RF bandwidth of the receiver

257.  Which of the following types of receiver noise can often be reduced by use of a receiver noise blanker?
--->  Ignition noise

258.  Which of the following types of receiver noise can often be reduced with a DSP noise filter?
..... Broadband white noise
..... Ignition noise
..... Power line noise
--->  ALL OF THESE CHOICES ARE CORRECT

259.  Which of the following signals might a receiver noise blanker be able to remove from desired signals?
--->  Signals which appear across a wide bandwidth

260.  How can conducted and radiated noise caused by an automobile alternator be suppressed?
---> By connecting the radio's power leads directly to the battery and by installing coaxial capacitors in line with the alternator leads

261.  How can noise from an electric motor be suppressed?
--->  By installing a brute-force AC-line filter in series with the motor leads

262.  What is a major cause of atmospheric static?
--->  Thunderstorms

263.  How can you determine if line noise interference is being generated within your home?
--->  By turning off the AC power line main circuit breaker and listening on a battery operated radio

264.  What type of signal is picked up by electrical wiring near a radio antenna?
--->  A common-mode signal at the frequency of the radio transmitter

265.  What undesirable effect can occur when using an IF noise blanker?
--->  Nearby signals may appear to be excessively wide even if they meet emission standards

266.  What is a common characteristic of interference caused by a touch controlled electrical device?
..... The interfering signal sounds like AC hum on an AM receiver or a carrier modulated by 60 Hz hum on a SSB or CW receiver
..... The interfering signal may drift slowly across the HF spectrum
..... The interfering signal can be several kHz in width and usually repeats at regular intervals across a HF band
--->  ALL OF THESE CHOICES ARE CORRECT

267.  Which is the most likely cause if you are hearing combinations of local AM broadcast signals within one or more of the MF or HF ham bands?
--->  Nearby corroded metal joints are mixing and re-radiating the broadcast signals

268.  What is one disadvantage of using some types of automatic DSP notch-filters when attempting to copy CW signals?
--->  A DSP filter can remove the desired signal at the same time as it removes interfering signals

269.  What might be the cause of a loud roaring or buzzing AC line interference that comes and goes at intervals?
..... Arcing contacts in a thermostatically controlled device
..... A defective doorbell or doorbell transformer inside a nearby residence
..... A malfunctioning illuminated advertising display
--->  ALL OF THESE CHOICES ARE CORRECT

270.  What is one type of electrical interference that might be caused by the operation of a nearby personal computer?
--->  The appearance of unstable modulated or unmodulated signals at specific frequencies

271.  Which of the following can cause shielded cables to radiate or receive interference?
--->  Common mode currents on the shield and conductors

272.  What current flows equally on all conductors of an unshielded multi-conductor cable?
--->  Common-mode current

273.  What can cause the voltage across reactances in series to be larger than the voltage applied to them?
--->  Resonance

274.  What is resonance in an electrical circuit?
--->  The frequency at which the capacitive reactance equals the inductive reactance

275.  What is the magnitude of the impedance of a series RLC circuit at resonance?
---> Approximately equal to circuit resistance

276.  What is the magnitude of the impedance of a circuit with a resistor, an inductor and a capacitor all in parallel, at resonance?
--->  Approximately equal to circuit resistance

277.  What is the magnitude of the current at the input of a series RLC circuit as the frequency goes through resonance?
--->  Maximum

278.  What is the magnitude of the circulating current within the components of a parallel LC circuit at resonance?
--->  It is at a maximum

279.  What is the magnitude of the current at the input of a parallel RLC circuit at resonance?
--->  Minimum

280.  What is the phase relationship between the current through and the voltage across a series resonant circuit at resonance?
--->  The voltage and current are in phase

281.  How is the Q of an RLC parallel resonant circuit calculated?
--->  Resistance divided by the reactance of either the inductance or capacitance

282.  How is the Q of an RLC series resonant circuit calculated?
--->  Reactance of either the inductance or capacitance divided by the resistance

283.  What is the half-power bandwidth of a parallel resonant circuit that has a resonant frequency of 7.1 MHz and a Q of 150?
--->  47.3 kHz

284.  What is the half-power bandwidth of a parallel resonant circuit that has a resonant frequency of 3.7 MHz and a Q of 118?
--->  31.4 kHz

285.  What is an effect of increasing Q in a resonant circuit?
--->  Internal voltages and circulating currents increase

286.  What is the resonant frequency of a series RLC circuit if R is 22 ohms, L is 50 microhenrys and C is 40 picofarads?
--->  3.56 MHz

287.  Which of the following can increase Q for inductors and capacitors?
--->  Lower losses

288.  What is the resonant frequency of a parallel RLC circuit if R is 33 ohms, L is 50 microhenrys and C is 10 picofarads?
---> 7.12 MHz

289.  What is the result of increasing the Q of an impedance-matching circuit?
--->  Matching bandwidth is decreased

290.  What is the term for the time required for the capacitor in an RC circuit to be charged to 63.2% of the applied voltage?
--->  One time constant

291.  What is the term for the time it takes for a charged capacitor in an RC circuit to discharge to 36.8% of its initial voltage?
---> One time constant

292.  What happens to the phase angle of a reactance when it is converted to a susceptance?
--->  The sign is reversed

293.  What is the time constant of a circuit having two 220 microfarad capacitors and two 1 megohm resistors, all in parallel?
---> 220 seconds

294.  What happens to the magnitude of a reactance when it is converted to a susceptance?
---> The magnitude of the susceptance is the reciprocal of the magnitude of the reactance

295.  What is susceptance?
--->  The inverse of reactance

296.  What is the phase angle between the voltage across and the current through a series RLC circuit if XC is 500 ohms, R is 1 kilohm, and XL is 250 ohms?
--->  14.0 degrees with the voltage lagging the current

297.  What is the phase angle between the voltage across and the current through a series RLC circuit if XC is 100 ohms, R is 100 ohms, and XL is 75 ohms?
--->  14 degrees with the voltage lagging the current

298.  What is the relationship between the current through a capacitor and the voltage across a capacitor?
---> Current leads voltage by 90 degrees

299.  What is the relationship between the current through an inductor and the voltage across an inductor?
--->  Voltage leads current by 90 degrees

300.  What is the phase angle between the voltage across and the current through a series RLC circuit if XC is 25 ohms, R is 100 ohms, and XL is 50 ohms?
--->  14 degrees with the voltage leading the current

301.  What is admittance?
--->  The inverse of impedance

302.  What letter is commonly used to represent susceptance?
---> B

303.  Which of the following represents a capacitive reactance in rectangular notation?
--->  jX

304.  How are impedances described in polar coordinates?
--->  By phase angle and amplitude

305.  Which of the following represents an inductive reactance in polar coordinates?
--->  A positive phase angle

306.  Which of the following represents a capacitive reactance in polar coordinates?
---> A negative phase angle

307.  What is the name of the diagram used to show the phase relationship between impedances at a given frequency?
--->  Phasor diagram

308.  What does the impedance 50j25 represent?
--->  50 ohms resistance in series with 25 ohms capacitive reactance

309.  What is a vector?
--->  A quantity with both magnitude and an angular component

310.  What coordinate system is often used to display the phase angle of a circuit containing resistance, inductive and/or capacitive reactance?
---> Polar coordinates

311.  When using rectangular coordinates to graph the impedance of a circuit, what does the horizontal axis represent?
--->  Resistive component

312.  When using rectangular coordinates to graph the impedance of a circuit, what does the vertical axis represent?
--->  Reactive component

313.  What do the two numbers that are used to define a point on a graph using rectangular coordinates represent?
--->  The coordinate values along the horizontal and vertical axes

314.  If you plot the impedance of a circuit using the rectangular coordinate system and find the impedance point falls on the right side of the graph on the horizontal axis, what do you know about the circuit?
---> It is equivalent to a pure resistance

315.  What coordinate system is often used to display the resistive, inductive, and/or capacitive reactance components of impedance?
---> Rectangular coordinates

316.  Which point on Figure E5-2 best represents the impedance of a series circuit consisting of a 400 ohm resistor and a 38 picofarad capacitor at 14 MHz?
--->  Point 4

317.  Which point in Figure E5-2 best represents the impedance of a series circuit consisting of a 300 ohm resistor and an 18 microhenry inductor at 3.505 MHz?
--->  Point 3

318.  Which point on Figure E5-2 best represents the impedance of a series circuit consisting of a 300 ohm resistor and a 19 picofarad capacitor at 21.200 MHz?
--->  Point 1

319.  Which point on Figure E5-2 best represents the impedance of a series circuit consisting of a 300 ohm resistor, a 0.64-microhenry inductor and an 85-picofarad capacitor at 24.900 MHz?
---> Point 8

320.  What is the result of skin effect?
--->  As frequency increases, RF current flows in a thinner layer of the conductor, closer to the surface

321.  Why is it important to keep lead lengths short for components used in circuits for VHF and above?
--->  To avoid unwanted inductive reactance

322.  What is microstrip?
---> Precision printed circuit conductors above a ground plane that provide constant impedance interconnects at microwave frequencies

323.  Why are short connections necessary at microwave frequencies?
--->  To reduce phase shift along the connection

324.  Which parasitic characteristic increases with conductor length?
--->  Inductance

325.  In what direction is the magnetic field oriented about a conductor in relation to the direction of electron flow?
---> In a direction determined by the left-hand rule

326.  What determines the strength of the magnetic field around a conductor?
---> The amount of current flowing through the conductor

327.  What type of energy is stored in an electromagnetic or electrostatic field?
--->  Potential energy

328.  What happens to reactive power in an AC circuit that has both ideal inductors and ideal capacitors?
--->  It is repeatedly exchanged between the associated magnetic and electric fields, but is not dissipated

329.  How can the true power be determined in an AC circuit where the voltage and current are out of phase?
--->  By multiplying the apparent power times the power factor

330.  What is the power factor of an R-L circuit having a 60 degree phase angle between the voltage and the current?
--->  0.5

331.  How many watts are consumed in a circuit having a power factor of 0.2 if the input is 100-VAC at 4 amperes?
--->  80 watts

332.  How much power is consumed in a circuit consisting of a 100 ohm resistor in series with a 100 ohm inductive reactance drawing 1 ampere?
--->  100 Watts

333.  What is reactive power?
--->  Wattless, nonproductive power

334.  What is the power factor of an R-L circuit having a 45 degree phase angle between the voltage and the current?
---> 0.707

335.  What is the power factor of an R-L circuit having a 30 degree phase angle between the voltage and the current?
--->  0.866

336.  How many watts are consumed in a circuit having a power factor of 0.6 if the input is 200VAC at 5 amperes?
---> 600 watts

337.  How many watts are consumed in a circuit having a power factor of 0.71 if the apparent power is 500VA?
--->  355 W

338.  In what application is gallium arsenide used as a semiconductor material in preference to germanium or silicon?
--->  In microwave circuits

339.  Which of the following semiconductor materials contains excess free electrons?
--->  N-type

340.  Why does a PN-junction diode not conduct current when reverse biased?
--->  Holes in P-type material and electrons in the N-type material are separated by the applied voltage, widening the depletion region

341.  What is the name given to an impurity atom that adds holes to a semiconductor crystal structure?
--->  Acceptor impurity

342.  What is the alpha of a bipolar junction transistor?
--->  The change of collector current with respect to emitter current

343.  What is the beta of a bipolar junction transistor?
--->  The change in collector current with respect to base current

344.  Which of the following indicates that a silicon NPN junction transistor is biased on?
---> Base-to-emitter voltage of approximately 0.6 to 0.7 volts

345.  What term indicates the frequency at which the grounded-base current gain of a transistor has decreased to 0.7 of the gain obtainable at 1 kHz?
---> Alpha cutoff frequency

346.  What is a depletion-mode FET?
--->  An FET that exhibits a current flow between source and drain when no gate voltage is applied

347.  In Figure E6-2, what is the schematic symbol for an N-channel dual-gate MOSFET?
--->  4

348.  In Figure E6-2, what is the schematic symbol for a P-channel junction FET?
--->  1

349.  Why do many MOSFET devices have internally connected Zener diodes on the gates?
---> To reduce the chance of the gate insulation being punctured by static discharges or excessive voltages

350.  What do the initials CMOS stand for?
--->  Complementary Metal-Oxide Semiconductor

351.  How does DC input impedance at the gate of a field-effect transistor compare with the DC input impedance of a bipolar transistor?
--->  An FET has high input impedance; a bipolar transistor has low input impedance

352.  Which semiconductor material contains excess holes in the outer shell of electrons?
--->  P-type

353.  What are the majority charge carriers in N-type semiconductor material?
--->  Free electrons

354.  What are the names of the three terminals of a field-effect transistor?
---> Gate, drain, source

355.  What is the most useful characteristic of a Zener diode?
--->  A constant voltage drop under conditions of varying current

356.  What is an important characteristic of a Schottky diode as compared to an ordinary silicon diode when used as a power supply rectifier?
---> Less forward voltage drop

357.  What special type of diode is capable of both amplification and oscillation?
--->  Tunnel

358.  What type of semiconductor device is designed for use as a voltage-controlled capacitor?
--->  Varactor diode

359.  What characteristic of a PIN diode makes it useful as an RF switch or attenuator?
---> A large region of intrinsic material

360.  Which of the following is a common use of a hot-carrier diode?
---> As a VHF/UHF mixer or detector

361.  What is the failure mechanism when a junction diode fails due to excessive current?
--->  Excessive junction temperature

362.  Which of the following describes a type of semiconductor diode?
--->  Metal-semiconductor junction

363.  What is a common use for point contact diodes?
--->  As an RF detector

364.  In Figure E6-3, what is the schematic symbol for a light-emitting diode?
--->  5

365.  What is used to control the attenuation of RF signals by a PIN diode?
--->  Forward DC bias current

366.  What is one common use for PIN diodes?
--->  As an RF switch

367.  What type of bias is required for an LED to emit light?
--->  Forward bias

368.  What is the function of hysteresis in a comparator?
--->  To prevent input noise from causing unstable output signals

369.  What happens when the level of a comparators input signal crosses the threshold?
--->  The comparator changes its output state

370.  What is tri-state logic?
--->  Logic devices with 0, 1, and high impedance output states

371.  What is the primary advantage of tri-state logic?
--->  Ability to connect many device outputs to a common bus

372.  What is an advantage of CMOS logic devices over TTL devices?
---> Lower power consumption

373.  Why do CMOS digital integrated circuits have high immunity to noise on the input signal or power supply?
--->  The input switching threshold is about one-half the power supply voltage

374.  What best describes a pull-up or pull-down resistor?
--->  A resistor connected to the positive or negative supply line used to establish a voltage when an input or output is an open circuit

375.  In Figure E6-5, what is the schematic symbol for a NAND gate?
--->  2

376.  What is a Programmable Logic Device (PLD)?
--->  A programmable collection of logic gates and circuits in a single integrated circuit

377.  In Figure E6-5, what is the schematic symbol for a NOR gate?
---> 4

378.  In Figure E6-5, what is the schematic symbol for the NOT operation (inverter)?
--->  5

379.  What is BiCMOS logic?
---> An integrated circuit logic family using both bipolar and CMOS transistors

380.  Which of the following is an advantage of BiCMOS logic?
--->  It has the high input impedance of CMOS and the low output impedance of bipolar transistors

381.  What is the primary advantage of using a Programmable Gate Array (PGA) in a logic circuit?
--->  Complex logic functions can be created in a single integrated circuit

382.  How many turns will be required to produce a 5-microhenry inductor using a powdered-iron toroidal core that has an inductance index (A L) value of 40 microhenrys/100 turns?
--->  35 turns

383.  What is the equivalent circuit of a quartz crystal?
--->  Motional capacitance, motional inductance, and loss resistance in series, all in parallel with a shunt capacitor representing electrode and stray capacitance

384.  Which of the following is an aspect of the piezoelectric effect?
--->  Mechanical deformation of material by the application of a voltage

385.  Which materials are commonly used as a slug core in a variable inductor?
--->  Ferrite and brass

386.  What is one reason for using ferrite cores rather than powdered-iron in an inductor?
--->  Ferrite toroids generally require fewer turns to produce a given inductance value

387.  What core material property determines the inductance of a toroidal inductor?
---> Permeability

388.  What is the usable frequency range of inductors that use toroidal cores, assuming a correct selection of core material for the frequency being used?
--->  From less than 20 Hz to approximately 300 MHz

389.  What is one reason for using powdered-iron cores rather than ferrite cores in an inductor?
--->  Powdered-iron cores generally maintain their characteristics at higher currents

390.  What devices are commonly used as VHF and UHF parasitic suppressors at the input and output terminals of a transistor HF amplifier?
--->  Ferrite beads

391.  What is a primary advantage of using a toroidal core instead of a solenoidal core in an inductor?
--->  Toroidal cores confine most of the magnetic field within the core material

392.  How many turns will be required to produce a 1-mH inductor using a core that has an inductance index (A L) value of 523 millihenrys/1000 turns?
--->  43 turns

393.  What is the definition of saturation in a ferrite core inductor?
--->  The ability of the inductors core to store magnetic energy has been exceeded

394.  What is the primary cause of inductor self-resonance?
--->  Inter-turn capacitance

395.  Which type of slug material decreases inductance when inserted into a coil?
--->  Brass

396.  What is current in the primary winding of a transformer called if no load is attached to the secondary?
--->  Magnetizing current

397.  What is the common name for a capacitor connected across a transformer secondary that is used to absorb transient voltage spikes?
---> Snubber capacitor

398.  Why should core saturation of a conventional impedance matching transformer be avoided?
--->  Harmonics and distortion could result

399.  Which of the following is true of a charge-coupled device (CCD)?
--->  It samples an analog signal and passes it in stages from the input to the output

400.  Which of the following device packages is a through-hole type?
--->  DIP

401.  Which of the following materials is likely to provide the highest frequency of operation when used in MMICs?
---> Gallium nitride

402.  Which is the most common input and output impedance of circuits that use MMICs?
--->  50 ohms

403.  Which of the following noise figure values is typical of a low-noise UHF preamplifier?
--->  2 dB

404.  What characteristics of the MMIC make it a popular choice for VHF through microwave circuits?
---> Controlled gain, low noise figure, and constant input and output impedance over the specified frequency range

405.  Which of the following is typically used to construct a MMIC-based microwave amplifier?
--->  Microstrip construction

406.  How is voltage from a power supply normally furnished to the most common type of monolithic microwave integrated circuit (MMIC)?
--->  Through a resistor and/or RF choke connected to the amplifier output lead

407.  Which of the following component package types would be most suitable for use at frequencies above the HF range?
---> Surface mount

408.  What is the packaging technique in which leadless components are soldered directly to circuit boards?
---> Surface mount

409.  What is a characteristic of DIP packaging used for integrated circuits?
---> A total of two rows of connecting pins placed on opposite sides of the package (Dual In-line Package)

410.  Why are high-power RF amplifier ICs and transistors sometimes mounted in ceramic packages?
--->  Better dissipation of heat

411.  What is photoconductivity?
--->  The increased conductivity of an illuminated semiconductor

412.  What happens to the conductivity of a photoconductive material when light shines on it?
--->  It increases

413.  What is the most common configuration of an optoisolator or optocoupler?
---> An LED and a phototransistor

414.  What is the photovoltaic effect?
--->  The conversion of light to electrical energy

415.  Which describes an optical shaft encoder?
--->  A device which detects rotation of a control by interrupting a light source with a patterned wheel

416.  Which of these materials is affected the most by photoconductivity?
--->  A crystalline semiconductor

417.  What is a solid state relay?
--->  A device that uses semiconductors to implement the functions of an electromechanical relay

418.  Why are optoisolators often used in conjunction with solid state circuits when switching 120VAC?
--->  Optoisolators provide a very high degree of electrical isolation between a control circuit and the circuit being switched

419.  What is the efficiency of a photovoltaic cell?
---> The relative fraction of light that is converted to current

420.  What is the most common type of photovoltaic cell used for electrical power generation?
--->  Silicon

421.  What is the approximate open-circuit voltage produced by a fully-illuminated siliconphotovoltaic cell?
--->  0.5 V

422.  What absorbs the energy from light falling on a photovoltaic cell?
--->  Electrons

423.  What is a liquid crystal display (LCD)?
--->  A display utilizing a crystalline liquid and polarizing filters which becomes opaque when voltage is applied

424.  Which of the following is true of LCD displays?
--->  They may be hard view through polarized lenses

425.  Which is a bi-stable circuit?
--->  A flip-flop

426.  What is the function of a decade counter digital IC?
--->  It produces one output pulse for every ten input pulses

427.  Which of the following can divide the frequency of a pulse train by 2?
--->  A flip-flop

428.  How many flip-flops are required to divide a signal frequency by 4?
--->  2

429.  Which of the following is a circuit that continuously alternates between two states without an external clock?
---> Astable multivibrator

430.  What is a characteristic of a monostable multivibrator?
--->  It switches momentarily to the opposite binary state and then returns to its original state after a set time

431.  What logical operation does a NAND gate perform?
---> It produces logic "0" at its output only when all inputs are logic "1"

432.  What logical operation does an OR gate perform?
--->  It produces logic "1" at its output if any or all inputs are logic "1"

433.  What logical operation is performed by an exclusive NOR gate?
--->  It produces logic "0" at its output if any single input is logic "1"

434.  What is a truth table?
--->  A list of inputs and corresponding outputs for a digital device

435.  What type of logic defines "1" as a high voltage?
---> Positive Logic

436.  What type of logic defines "0" as a high voltage?
--->  Negative logic

437.  For what portion of a signal cycle does a Class AB amplifier operate?
--->  More than 180 degrees but less than 360 degrees

438.  What is a Class D amplifier?
--->  A type of amplifier that uses switching technology to achieve high efficiency

439.  Which of the following components form the output of a class D amplifier circuit?
--->  A low-pass filter to remove switching signal components

440.  Where on the load line of a Class A common emitter amplifier would bias normally be set?
--->  Approximately half-way between saturation and cutoff

441.  What can be done to prevent unwanted oscillations in an RF power amplifier?
--->  Install parasitic suppressors and/or neutralize the stage

442.  Which of the following amplifier types reduces or eliminates even order harmonics?
--->  Push-pull

443.  Which of the following is a likely result when a Class C amplifier is used to amplify a single-sideband phone signal?
---> Signal distortion and excessive bandwidth

444.  How can an RF power amplifier be neutralized?
--->  By feeding a 180-degree out-of-phase portion of the output back to the input

445.  Which of the following describes how the loading and tuning capacitors are to be adjusted when tuning a vacuum tube RF power amplifier that employs a Pi-network output circuit?
---> The tuning capacitor is adjusted for minimum plate current, and the loading capacitor is adjusted for maximum permissible plate current

446.  In Figure E7-1, what is the purpose of R1 and R2?
--->  Fixed bias

447.  In Figure E7-1, what is the purpose of R3?
---> Self bias

448.  What type of amplifier circuit is shown in Figure E7-1?
--->  Common emitter

449.  In Figure E7-2, what is the purpose of R?
--->  Emitter load

450.  Why are switching amplifiers more efficient than linear amplifiers?
--->  The power transistor is at saturation or cut off most of the time, resulting in low power dissipation

451.  What is one way to prevent thermal runaway in a bipolar transistor amplifier?
--->  Use a resistor in series with the emitter

452.  What is the effect of intermodulation products in a linear power amplifier?
--->  Transmission of spurious signals

453.  Why are odd-order rather than even-order intermodulation distortion products of concern in linear power amplifiers?
--->  Because they are relatively close in frequency to the desired signal

454.  What is a characteristic of a grounded-grid amplifier?
--->  Low input impedance

455.  How are the capacitors and inductors of a low-pass filter Pi-network arranged between the network's input and output?
---> A capacitor is connected between the input and ground, another capacitor is connected between the output and ground, and an inductor is connected between input and output

456.  Which of the following is a property of a T-network with series capacitors and a parallel shunt inductor?
--->  It is a high-pass filter

457.  What advantage does a Pi-L-network have over a regular Pi-network for impedance matching between the final amplifier of a vacuum-tube transmitter and an antenna?
--->  Greater harmonic suppression

458.  How does an impedance-matching circuit transform a complex impedance to a resistive impedance?
--->  It cancels the reactive part of the impedance and changes the resistive part to a desired value

459.  Which filter type is described as having ripple in the passband and a sharp cutoff?
---> A Chebyshev filter

460.  What are the distinguishing features of an elliptical filter?
--->  Extremely sharp cutoff with one or more notches in the stop band

461.  What kind of filter would you use to attenuate an interfering carrier signal while receiving an SSB transmission?
--->  A notch filter

462.  Which of the following factors has the greatest effect in helping determine the bandwidth and response shape of a crystal ladder filter?
--->  The relative frequencies of the individual crystals

463.  What is a Jones filter as used as part of an HF receiver IF stage?
--->  A variable bandwidth crystal lattice filter

464.  Which of the following is the common name for a filter network which is equivalent to two L-networks connected back-to-back with the two inductors in series and the capacitors in shunt at the input and output?
---> Pi

465.  Which describes a Pi-L-network used for matching a vacuum tube final amplifier to a 50 ohm unbalanced output?
--->  A Pi-network with an additional series inductor on the output

466.  What is one advantage of a Pi-matching network over an L-matching network consisting of a single inductor and a single capacitor?
--->  The Q of Pi-networks can be varied depending on the component values chosen

467.  Which mode is most affected by non-linear phase response in a receiver IF filter?
--->  Digital

468.  What is a crystal lattice filter?
---> A filter with narrow bandwidth and steep skirts made using quartz crystals

469.  What is one characteristic of a linear electronic voltage regulator?
---> The conduction of a control element is varied to maintain a constant output voltage

470.  What is one characteristic of a switching electronic voltage regulator?
--->  The controlled devices duty cycle is changed to produce a constant average output voltage

471.  What device is typically used as a stable reference voltage in a linear voltage regulator?
--->  A Zener diode

472.  Which of the following types of linear voltage regulator usually make the most efficient use of the primary power source?
--->  A series regulator

473.  Which of the following types of linear voltage regulator places a constant load on the unregulated voltage source?
---> A shunt regulator

474.  What is the purpose of Q1 in the circuit shown in Figure E7-3?
--->  It increases the current-handling capability of the regulator

475.  What is the purpose of C2 in the circuit shown in Figure E7-3?
--->  It bypasses hum around D1

476.  What type of circuit is shown in Figure E7-3?
--->  Linear voltage regulator

477.  What is the main reason to use a charge controller with a solar power system?
--->  Prevention of battery damage due to overcharge

478.  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?
--->  The high frequency inverter design uses much smaller transformers and filter components for an equivalent power output

479.  What circuit element is controlled by a series analog voltage regulator to maintain a constant output voltage?
---> Pass transistor

480.  What is the drop-out voltage of an analog voltage regulator?
--->  Minimum input-to-output voltage required to maintain regulation

481.  What is the equation for calculating power dissipation by a series connected linear voltage regulator?
--->  Voltage difference from input to output multiplied by output current

482.  What is one purpose of a "bleeder" resistor in a conventional unregulated power supply?
--->  To improve output voltage regulation

483.  What is the purpose of a "step-start" circuit in a high voltage power supply?
---> To allow the filter capacitors to charge gradually

484.  When several electrolytic filter capacitors are connected in series to increase the operating voltage of a power supply filter circuit, why should resistors be connected across each capacitor?
..... To equalize, as much as possible, the voltage drop across each capacitor
..... To provide a safety bleeder to discharge the capacitors when the supply is off
..... To provide a minimum load current to reduce voltage excursions at light loads
--->  ALL OF THESE CHOICES ARE CORRECT

485.  Which of the following can be used to generate FM phone emissions?
--->  A reactance modulator on the oscillator

486.  What is the function of a reactance modulator?
---> To produce PM signals by using an electrically variable inductance or capacitance

487.  How does an analog phase modulator function?
--->  By varying the tuning of an amplifier tank circuit to produce PM signals

488.  What is one way a single-sideband phone signal can be generated?
--->  By using a balanced modulator followed by a filter

489.  What circuit is added to an FM transmitter to boost the higher audio frequencies?
---> A pre-emphasis network

490.  Why is de-emphasis commonly used in FM communications receivers?
--->  For compatibility with transmitters using phase modulation

491.  What is meant by the term baseband in radio communications?
--->  The frequency components present in the modulating signal

492.  What are the principal frequencies that appear at the output of a mixer circuit?
--->  The two input frequencies along with their sum and difference frequencies

493.  What occurs when an excessive amount of signal energy reaches a mixer circuit?
--->  Spurious mixer products are generated

494.  How does a diode detector function?
--->  By rectification and filtering of RF signals

495.  Which type of detector is used for demodulating SSB signals?
--->  Product detector

496.  What is a frequency discriminator stage in a FM receiver?
---> A circuit for detecting FM signals

497.  What is meant by direct digital conversion as applied to software defined radios?
--->  Incoming RF is digitized by an analog-to-digital converter without being mixed with a local oscillator signal

498.  What kind of digital signal processing audio filter is used to remove unwanted noise from a received SSB signal?
--->  An adaptive filter

499.  What type of digital signal processing filter is used to generate an SSB signal?
--->  A Hilbert-transform filter

500.  What is a common method of generating an SSB signal using digital signal processing?
---> Combine signals with a quadrature phase relationship

501.  How frequently must an analog signal be sampled by an analog-to-digital converter so that the signal can be accurately reproduced?
--->  At twice the rate of the highest frequency component of the signal

502.  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?
---> 10 bits

503.  What function can a Fast Fourier Transform perform?
--->  Converting digital signals from the time domain to the frequency domain

504.  What is the function of decimation with regard to digital filters?
--->  Reducing the effective sample rate by removing samples

505.  Why is an anti-aliasing digital filter required in a digital decimator?
--->  It removes high-frequency signal components which would otherwise be reproduced as lower frequency components

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

507.  What sets the minimum detectable signal level for an SDR in the absence of atmospheric or thermal noise?
--->  Reference voltage level and sample width in bits

508.  What digital process is applied to I and Q signals in order to recover the baseband modulation information?
--->  Fast Fourier Transform

509.  What is the function of taps in a digital signal processing filter?
---> Provide incremental signal delays for filter algorithms

510.  Which of the following would allow a digital signal processing filter to create a sharper filter response?
--->  More taps

511.  Which of the following is an advantage of a Finite Impulse Response (FIR) filter vs an Infinite Impulse Response (IIR) digital filter?
--->  FIR filters delay all frequency components of the signal by the same amount

512.  How might the sampling rate of an existing digital signal be adjusted by a factor of 3/4?
---> Interpolate by a factor of three, then decimate by a factor of four

513.  What do the letters I and Q in I/Q Modulation represent?
---> In-phase and Quadrature

514.  What is the typical output impedance of an integrated circuit op-amp?
--->  Very low

515.  What is the effect of ringing in a filter?
---> Undesired oscillations added to the desired signal

516.  What is the typical input impedance of an integrated circuit op-amp?
---> Very high

517.  What is meant by the term op-amp input offset voltage?
--->  The differential input voltage needed to bring the open loop output voltage to zero

518.  How can unwanted ringing and audio instability be prevented in a multi-section op-amp RC audio filter circuit?
--->  Restrict both gain and Q

519.  Which of the following is the most appropriate use of an op-amp active filter?
---> As an audio filter in a receiver

520.  What magnitude of voltage gain can be expected from the circuit in Figure E7-4 when R1 is 10 ohms and RF is 470 ohms?
--->  47

521.  How does the gain of an ideal operational amplifier vary with frequency?
---> It does not vary with frequency

522.  What will be the output voltage of the circuit shown in Figure E7-4 if R1 is 1000 ohms, RF is 10,000 ohms, and 0.23 volts DC is applied to the input?
---> -2.3 volts

523.  What absolute voltage gain can be expected from the circuit in Figure E7-4 when R1 is 1800 ohms and RF is 68 kilohms?
--->  38

524.  What absolute voltage gain can be expected from the circuit in Figure E7-4 when R1 is 3300 ohms and RF is 47 kilohms?
--->  14

525.  What is an integrated circuit operational amplifier?
--->  A high-gain, direct-coupled differential amplifier with very high input impedance and very low output impedance

526.  What are three oscillator circuits used in Amateur Radio equipment?
---> Colpitts, Hartley and Pierce

527.  Which describes a microphonic?
--->  Changes in oscillator frequency due to mechanical vibration

528.  How is positive feedback supplied in a Hartley oscillator?
--->  Through a tapped coil

529.  How is positive feedback supplied in a Colpitts oscillator?
--->  Through a capacitive divider

530.  How is positive feedback supplied in a Pierce oscillator?
---> Through a quartz crystal

531.  Which of the following oscillator circuits are commonly used in VFOs?
--->  Colpitts and Hartley

532.  How can an oscillators microphonic responses be reduced?
---> Mechanically isolating the oscillator circuitry from its enclosure

533.  Which of the following components can be used to reduce thermal drift in crystal oscillators?
--->  NP0 capacitors

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

535.  What information is contained in the lookup table of a direct digital frequency synthesizer?
--->  The amplitude values that represent a sine-wave output

536.  What are the major spectral impurity components of direct digital synthesizers?
--->  Spurious signals at discrete frequencies

537.  Which of the following must be done to insure that a crystal oscillator provides the frequency specified by the crystal manufacturer?
--->  Provide the crystal with a specified parallel capacitance

538.  Which of the following is a technique for providing highly accurate and stable oscillators needed for microwave transmission and reception?
..... Use a GPS signal reference
..... Use a rubidium stabilized reference oscillator
..... Use a temperature-controlled high Q dielectric resonator
--->  ALL OF THESE CHOICES ARE CORRECT

539.  What is a phase-locked loop circuit?
--->  An electronic servo loop consisting of a phase detector, a low-pass filter, a voltage-controlled oscillator, and a stable reference oscillator

540.  Which of these functions can be performed by a phase-locked loop?
---> Frequency synthesis, FM demodulation

541.  What is the name of the process that shows that a square wave is made up of a sine wave plus all of its odd harmonics?
--->  Fourier analysis

542.  What type of wave has a rise time significantly faster than its fall time (or vice versa)?
--->  A sawtooth wave

543.  What type of wave does a Fourier analysis show to be made up of sine waves of a given fundamental frequency plus all of its harmonics?
--->  A sawtooth wave

544.  What is "dither" with respect to analog to digital converters?
--->  A small amount of noise added to the input signal to allow more precise representation of a signal over time

545.  What would be the most accurate way of measuring the RMS voltage of a complex waveform?
---> By measuring the heating effect in a known resistor

546.  What is the approximate ratio of PEP-to-average power in a typical single-sideband phone signal?
--->  2.5 to 1

547.  What determines the PEP-to-average power ratio of a single-sideband phone signal?
--->  The characteristics of the modulating signal

548.  Why would a direct or flash conversion analog-to-digital converter be useful for a software defined radio?
--->  Very high speed allows digitizing high frequencies

549.  How many levels can an analog-to-digital converter with 8 bit resolution encode?
---> 256

550.  What is the purpose of a low pass filter used in conjunction with a digital-to-analog converter?
--->  Remove harmonics from the output caused by the discrete analog levels generated

551.  What type of information can be conveyed using digital waveforms?
..... Human speech
..... Video signals
..... Data
--->  ALL OF THESE CHOICES ARE CORRECT

552.  What is an advantage of using digital signals instead of analog signals to convey the same information?
--->  Digital signals can be regenerated multiple times without error

553.  Which of these methods is commonly used to convert analog signals to digital signals?
--->  Sequential sampling

554.  What is the term for the ratio between the frequency deviation of an RF carrier wave and the modulating frequency of its corresponding FM-phone signal?
---> Modulation index

555.  How does the modulation index of a phase-modulated emission vary with RF carrier frequency (the modulated frequency)?
---> It does not depend on the RF carrier frequency

556.  What is the modulation index of an FM-phone signal having a maximum frequency deviation of 3000 Hz either side of the carrier frequency when the modulating frequency is 1000 Hz?
--->  3

557.  What is the modulation index of an FM-phone signal having a maximum carrier deviation of plus or minus 6 kHz when modulated with a 2 kHz modulating frequency?
--->  3

558.  What is the deviation ratio of an FM-phone signal having a maximum frequency swing of plus-or-minus 5 kHz when the maximum modulation frequency is 3 kHz?
---> 1.67

559.  What is the deviation ratio of an FM-phone signal having a maximum frequency swing of plus or minus 7.5 kHz when the maximum modulation frequency is 3.5 kHz?
--->  2.14

560.  Orthogonal Frequency Division Multiplexing is a technique used for which type of amateur communication?
--->  High speed digital modes

561.  What describes Orthogonal Frequency Division Multiplexing?
---> A digital modulation technique using subcarriers at frequencies chosen to avoid intersymbol interference

562.  What is meant by deviation ratio?
--->  The ratio of the maximum carrier frequency deviation to the highest audio modulating frequency

563.  What describes frequency division multiplexing?
--->  Two or more information streams are merged into a baseband, which then modulates the transmitter

564.  What is digital time division multiplexing?
--->  Two or more signals are arranged to share discrete time slots of a data transmission

565.  How is Forward Error Correction implemented?
--->  By transmitting extra data that may be used to detect and correct transmission errors

566.  What is the definition of symbol rate in a digital transmission?
--->  The rate at which the waveform of a transmitted signal changes to convey information

567.  When performing phase shift keying, why is it advantageous to shift phase precisely at the zero crossing of the RF carrier?
--->  This results in the least possible transmitted bandwidth for the particular mode

568.  What technique is used to minimize the bandwidth requirements of a PSK31 signal?
--->  Use of sinusoidal data pulses

569.  What is the necessary bandwidth of a 13-WPM international Morse code transmission?
--->  Approximately 52 Hz

570.  What is the necessary bandwidth of a 170-hertz shift, 300-baud ASCII transmission?
--->  0.5 kHz

571.  What is the necessary bandwidth of a 4800-Hz frequency shift, 9600-baud ASCII FM transmission?
--->  15.36 kHz

572.  How does ARQ accomplish error correction?
---> If errors are detected, a retransmission is requested

573.  Which is the name of a digital code where each preceding or following character changes by only one bit?
---> Gray code

574.  What is an advantage of Gray code in digital communications where symbols are transmitted as multiple bits ?
---> It facilitates error detection

575.  What is the relationship between symbol rate and baud?
--->  They are the same

576.  Why are received spread spectrum signals resistant to interference?
--->  Signals not using the spread spectrum algorithm are suppressed in the receiver

577.  What spread spectrum communications technique uses a high speed binary bit stream to shift the phase of an RF carrier?
--->  Direct sequence

578.  How does the spread spectrum technique of frequency hopping work?
---> The frequency of the transmitted signal is changed very rapidly according to a particular sequence also used by the receiving station

579.  What is the primary effect of extremely short rise or fall time on a CW signal?
--->  The generation of key clicks

580.  What is the most common method of reducing key clicks?
--->  Increase keying waveform rise and fall times

581.  Which of the following indicates likely overmodulation of an AFSK signal such as PSK or MFSK?
--->  Strong ALC action

582.  What is a common cause of overmodulation of AFSK signals?
---> Excessive transmit audio levels

583.  What parameter might indicate that excessively high input levels are causing distortion in an AFSK signal?
---> Intermodulation Distortion (IMD)

584.  What is considered a good minimum IMD level for an idling PSK signal?
---> -30 dB

585.  What are some of the differences between the Baudot digital code and ASCII?
--->  Baudot 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

586.  What is one advantage of using ASCII code for data communications?
--->  It is possible to transmit both upper and lower case text

587.  What is the advantage of including a parity bit with an ASCII character stream?
---> Some types of errors can be detected 

588.  What describes an isotropic antenna?
--->  A theoretical antenna used as a reference for antenna gain

589.  What antenna has no gain in any direction?
---> Isotropic antenna

590.  Why would one need to know the feed point impedance of an antenna?
--->  To match impedances in order to minimize standing wave ratio on the transmission line

591.  Which of the following factors may affect the feed point impedance of an antenna?
--->  Antenna height, conductor length/diameter ratio and location of nearby conductive objects

592.  What is included in the total resistance of an antenna system?
---> Radiation resistance plus ohmic resistance

593.  How does the beamwidth of an antenna vary as the gain is increased?
---> It decreases

594.  What is meant by antenna gain?
--->  The ratio of the radiated signal strength of an antenna in the direction of maximum radiation to that of a reference antenna

595.  What is meant by antenna bandwidth?
--->  The frequency range over which an antenna satisfies a performance requirement

596.  How is antenna efficiency calculated?
--->  (radiation resistance / total resistance) x 100 per cent

597.  Which of the following choices is a way to improve the efficiency of a ground-mounted quarter-wave vertical antenna?
--->  Install a good radial system

598.  Which of the following factors determines ground losses for a ground-mounted vertical antenna operating in the 3 MHz to 30 MHz range?
--->  Soil conductivity

599.  How much gain does an antenna have compared to a 1/2-wavelength dipole when it has 6 dB gain over an isotropic antenna?
--->  3.85 dB

600.  How much gain does an antenna have compared to a 1/2-wavelength dipole when it has 12 dB gain over an isotropic antenna?
--->  9.85 dB

601.  What is meant by the radiation resistance of an antenna?
--->  The value of a resistance that would dissipate the same amount of power as that radiated from an antenna

602.  What is the effective radiated power relative to a dipole of a repeater station with 150 watts transmitter power output, 2 dB feed line loss, 2.2 dB duplexer loss, and 7 dBd antenna gain?
---> 286 watts

603.  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?
--->  317 watts

604.  What is the effective radiated power of a repeater station with 200 watts transmitter power output, 2 dB feed line loss, 2.8 dB duplexer loss, 1.2 dB circulator loss, and 7 dBi antenna gain?
--->  252 watts

605.  What term describes station output, taking into account all gains and losses?
--->  Effective radiated power

606.  In the antenna radiation pattern shown in Figure E9-1, what is the 3 dB beam-width?
--->  50 degrees

607.  In the antenna radiation pattern shown in Figure E9-1, what is the front-to-back ratio?
--->  18 dB

608.  In the antenna radiation pattern shown in Figure E9-1, what is the front-to-side ratio?
--->  14 dB

609.  What may occur when a directional antenna is operated at different frequencies within the band for which it was designed?
---> The gain may change depending on frequency

610.  What type of antenna pattern over real ground is shown in Figure E9-2?
--->  Elevation

611.  What is the elevation angle of peak response in the antenna radiation pattern shown in Figure E9-2?
--->  7.5 degrees

612.  How does the total amount of radiation emitted by a directional gain antenna compare with the total amount of radiation emitted from an isotropic antenna, assuming each is driven by the same amount of power?
--->  They are the same

613.  How can the approximate beam-width in a given plane of a directional antenna be determined?
--->  Note the two points where the signal strength of the antenna is 3 dB less than maximum and compute the angular difference

614.  What type of computer program technique is commonly used for modeling antennas?
--->  Method of Moments

615.  What is the principle of a Method of Moments analysis?
--->  A wire is modeled as a series of segments, each having a uniform value of current

616.  What is a disadvantage of decreasing the number of wire segments in an antenna model below the guideline of 10 segments per half-wavelength?
--->  The computed feed point impedance may be incorrect

617.  What is the far field of an antenna?
---> The region where the shape of the antenna pattern is independent of distance

618.  What does the abbreviation NEC stand for when applied to antenna modeling programs?
--->  Numerical Electromagnetic Code

619.  What type of information can be obtained by submitting the details of a proposed new antenna to a modeling program?
..... SWR vs frequency charts
..... Polar plots of the far field elevation and azimuth patterns
..... Antenna gain
--->  ALL OF THESE CHOICES ARE CORRECT

620.  What is the front-to-back ratio of the radiation pattern shown in Figure E9-2?
--->  28 dB

621.  How many elevation lobes appear in the forward direction of the antenna radiation pattern shown in Figure E9-2?
--->  4

622.  What is the radiation pattern of two 1/4-wavelength vertical antennas spaced 1/2-wavelength apart and fed 180 degrees out of phase?
---> A figure-8 oriented along the axis of the array

623.  What is the radiation pattern of two 1/4 wavelength vertical antennas spaced 1/4 wavelength apart and fed 90 degrees out of phase?
--->  Cardioid

624.  What is the radiation pattern of two 1/4 wavelength vertical antennas spaced a 1/2 wavelength apart and fed in phase?
--->  A Figure-8 broadside to the axis of the array

625.  What happens to the radiation pattern of an unterminated long wire antenna as the wire length is increased?
--->  The lobes align more in the direction of the wire

626.  What is an OCFD antenna?
--->  A dipole feed approximately 1/3 the way from one end with a 4:1 balun to provide multiband operation

627.  What is the effect of a terminating resistor on a rhombic antenna?
--->  It changes the radiation pattern from bidirectional to unidirectional

628.  What is the approximate feed point impedance at the center of a two-wire folded dipole antenna?
--->  300 ohms

629.  What is a folded dipole antenna?
--->  A dipole consisting of one wavelength of wire forming a very thin loop

630.  What is a G5RV antenna?
--->  A multi-band dipole antenna fed with coax and a balun through a selected length of open wire transmission line

631.  Which of the following describes a Zepp antenna?
--->  An end fed dipole antenna

632.  How is the far-field elevation pattern of a vertically polarized antenna affected by being mounted over seawater versus rocky ground?
---> The low-angle radiation increases

633.  Which of the following describes an extended double Zepp antenna?
--->  A center fed 1.25 wavelength antenna (two 5/8 wave elements in phase)

634.  What is the main effect of placing a vertical antenna over an imperfect ground?
--->  It reduces low-angle radiation

635.  How does the performance of a horizontally polarized antenna mounted on the side of a hill compare with the same antenna mounted on flat ground?
--->  The main lobe takeoff angle decreases in the downhill direction

636.  How does the radiation pattern of a horizontally polarized 3-element beam antenna vary with its height above ground?
--->  The main lobe takeoff angle decreases with increasing height

637.  How does the gain of an ideal parabolic dish antenna change when the operating frequency is doubled?
--->  Gain increases by 6 dB

638.  How can linearly polarized Yagi antennas be used to produce circular polarization?
--->  Arrange two Yagis perpendicular to each other with the driven elements at the same point on the boom fed 90 degrees out of phase

639.  Where should a high Q loading coil be placed to minimize losses in a shortened vertical antenna?
--->  Near the center of the vertical radiator

640.  Why should an HF mobile antenna loading coil have a high ratio of reactance to resistance?
--->  To minimize losses

641.  What is a disadvantage of using a multiband trapped antenna?
--->  It might radiate harmonics

642.  What happens to the bandwidth of an antenna as it is shortened through the use of loading coils?
--->  It is decreased

643.  What is an advantage of using top loading in a shortened HF vertical antenna?
---> Improved radiation efficiency

644.  What happens as the Q of an antenna increases?
--->  SWR bandwidth decreases

645.  What is the function of a loading coil used as part of an HF mobile antenna?
---> To cancel capacitive reactance

646.  What happens to feed point impedance at the base of a fixed length HF mobile antenna as the frequency of operation is lowered?
--->  The radiation resistance decreases and the capacitive reactance increases

647.  Which of the following types of conductors would be best for minimizing losses in a station's RF ground system?
--->  A wide flat copper strap

648.  Which of the following would provide the best RF ground for your station?
--->  An electrically short connection to 3 or 4 interconnected ground rods driven into the Earth

649.  What usually occurs if a Yagi antenna is designed solely for maximum forward gain?
--->  The front-to-back ratio decreases

650.  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?
--->  The delta matching system

651.  What is the name of an antenna matching system that matches an unbalanced feed line to an antenna by feeding the driven element both at the center of the element and at a fraction of a wavelength to one side of center?
--->  The gamma match

652.  What is the name of the matching system that uses a section of transmission line connected in parallel with the feed line at or near the feed point?
---> The stub match

653.  What is the purpose of the series capacitor in a gamma-type antenna matching network?
--->  To cancel the inductive reactance of the matching network

654.  How must the driven element in a 3-element Yagi be tuned to use a hairpin matching system?
--->  The driven element reactance must be capacitive

655.  What is the equivalent lumped-constant network for a hairpin matching system of a 3-element Yagi?
--->  A shunt inductor

656.  What term best describes the interactions at the load end of a mismatched transmission line?
--->  Reflection coefficient

657.  Which of the following measurements is characteristic of a mismatched transmission line?
---> An SWR greater than 1:1

658.  Which of these matching systems is an effective method of connecting a 50 ohm coaxial cable feed line to a grounded tower so it can be used as a vertical antenna?
--->  Gamma match

659.  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?
--->  Insert a 1/4-wavelength piece of 75 ohm coaxial cable transmission line in series between the antenna terminals and the 50 ohm feed cable

660.  What is an effective way of matching a feed line to a VHF or UHF antenna when the impedances of both the antenna and feed line are unknown?
--->  Use the universal stub matching technique

661.  What is the primary purpose of a phasing line when used with an antenna having multiple driven elements?
--->  It ensures that each driven element operates in concert with the others to create the desired antenna pattern

662.  What is a use for a Wilkinson divider?
--->  It is used to divide power equally between two 50 ohm loads while maintaining 50 ohm input impedance

663.  What is the velocity factor of a transmission line?
---> The velocity of the wave in the transmission line divided by the velocity of light in a vacuum

664.  Which of the following determines the velocity factor of a transmission line?
--->  Dielectric materials used in the line

665.  Why is the physical length of a coaxial cable transmission line shorter than its electrical length?
---> Electrical signals move more slowly in a coaxial cable than in air

666.  What is the typical velocity factor for a coaxial cable with solid polyethylene dielectric?
--->  0.66

667.  What is the approximate physical length of a solid polyethylene dielectric coaxial transmission line that is electrically one-quarter wavelength long at 14.1 MHz?
--->  3.5 meters

668.  What is the approximate physical length of an air-insulated, parallel conductor transmission line that is electrically one-half wavelength long at 14.10 MHz?
--->  10 meters

669.  How does ladder line compare to small-diameter coaxial cable such as RG-58 at 50 MHz?
--->  Lower loss

670.  What is the term for the ratio of the actual speed at which a signal travels through a transmission line to the speed of light in a vacuum?
--->  Velocity factor

671.  What is the approximate physical length of a solid polyethylene dielectric coaxial transmission line that is electrically one-quarter wavelength long at 7.2 MHz?
--->  6.9 meters

672.  What impedance does a 1/8 wavelength transmission line present to a generator when the line is shorted at the far end?
--->  An inductive reactance

673.  What impedance does a 1/8 wavelength transmission line present to a generator when the line is open at the far end?
--->  A capacitive reactance

674.  What impedance does a 1/4 wavelength transmission line present to a generator when the line is open at the far end?
---> Very low impedance

675.  What impedance does a 1/4 wavelength transmission line present to a generator when the line is shorted at the far end?
--->  Very high impedance

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

677.  What impedance does a 1/2 wavelength transmission line present to a generator when the line is open at the far end?
--->  Very high impedance

678.  Which of the following is a significant difference between foam dielectric coaxial cable and solid dielectric cable, assuming all other parameters are the same?
..... Foam dielectric has lower safe operating voltage limits
..... Foam dielectric has lower loss per unit of length
..... Foam dielectric has higher velocity factor
--->  ALL OF THESE CHOICES ARE CORRECT

679.  Which of the following can be calculated using a Smith chart?
--->  Impedance along transmission lines

680.  What type of coordinate system is used in a Smith chart?
--->  Resistance circles and reactance arcs

681.  Which of the following is often determined using a Smith chart?
--->  Impedance and SWR values in transmission lines

682.  What are the two families of circles and arcs that make up a Smith chart?
--->  Resistance and reactance

683.  What type of chart is shown in Figure E9-3?
--->  Smith chart

684.  On the Smith chart shown in Figure E9-3, what is the name for the large outer circle on which the reactance arcs terminate?
--->  Reactance axis

685.  On the Smith chart shown in Figure E9-3, what is the only straight line shown?
---> The resistance axis

686.  What is the process of normalization with regard to a Smith chart?
--->  Reassigning impedance values with regard to the prime center

687.  What third family of circles is often added to a Smith chart during the process of solving problems?
--->  Standing wave ratio circles

688.  What do the arcs on a Smith chart represent?
---> Points with constant reactance

689.  How are the wavelength scales on a Smith chart calibrated?
--->  In fractions of transmission line electrical wavelength

690.  When constructing a Beverage antenna, which of the following factors should be included in the design to achieve good performance at the desired frequency?
---> It should be one or more wavelengths long

691.  Which is generally true for low band (160 meter and 80 meter) receiving antennas?
--->  Atmospheric noise is so high that gain over a dipole is not important

692.  What is an advantage of using a shielded loop antenna for direction finding?
--->  It is electro statically balanced against ground, giving better nulls

693.  What is the main drawback of a wire-loop antenna for direction finding?
--->  It has a bidirectional pattern

694.  What is the triangulation method of direction finding?
--->  Antenna headings from several different receiving locations are used to locate the signal source

695.  Why is it advisable to use an RF attenuator on a receiver being used for direction finding?
---> It prevents receiver overload which could make it difficult to determine peaks or nulls

696.  What is the function of a sense antenna?
--->  It modifies the pattern of a DF antenna array to provide a null in one direction

697.  Which of the following describes the construction of a receiving loop antenna?
--->  One or more turns of wire wound in the shape of a large open coil

698.  How can the output voltage of a multiple turn receiving loop antenna be increased?
---> By increasing either the number of wire turns in the loop or the area of the loop structure or both

699.  What characteristic of a cardioid pattern antenna is useful for direction finding?
--->  A very sharp single null

700.  What is the primary function of an external earth connection or ground rod?
--->  Lightning protection

701.  When evaluating RF exposure levels from your station at a neighbors home, what must you do?
--->  Make sure signals from your station are less than the uncontrolled MPE limits

702.  Which of the following would be a practical way to estimate whether the RF fields produced by an amateur radio station are within permissible MPE limits?
--->  Use an antenna modeling program to calculate field strength at accessible locations

703.  When evaluating a site with multiple transmitters operating at the same time, the operators and licensees of which transmitters are responsible for mitigating over-exposure situations?
--->  Each transmitter that produces 5 percent or more of its MPE limit at accessible locations

704.  What is one of the potential hazards of using microwaves in the amateur radio bands?
--->  The high gain antennas commonly used can result in high exposure levels

705.  Why are there separate electric (E) and magnetic (H) field MPE limits?
..... The body reacts to electromagnetic radiation from both the E and H fields
..... Ground reflections and scattering make the field impedance vary with location
..... E field and H field radiation intensity peaks can occur at different locations
--->  ALL OF THESE CHOICES ARE CORRECT

706.  How may dangerous levels of carbon monoxide from an emergency generator be detected?
--->  Only with a carbon monoxide detector

707.  What does SAR measure?
--->  The rate at which RF energy is absorbed by the body

708.  Which insulating material commonly used as a thermal conductor for some types of electronic devices is extremely toxic if broken or crushed and the particles are accidentally inhaled?
--->  Beryllium Oxide

709.  What toxic material may be present in some electronic components such as high voltage capacitors and transformers?
--->  Polychlorinated Biphenyls

710.  Which of the following injuries can result from using high-power UHF or microwave transmitters?
--->  Localized heating of the body from RF exposure in excess of the MPE limits

