subelement g3 radio wave propagation [3 exam questions - 3 groups]
TRANSCRIPT
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SUBELEMENT G3 RADIO WAVE PROPAGATION
[3 Exam Questions - 3 Groups]
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G3A - Sunspots and solar radiation; ionospheric disturbances; propagation forecasting and indices
G3B - Maximum Usable Frequency; Lowest Usable Frequency; propagation
G3C – Ionospheric layers; critical angle and frequency; HF scatter; Near Vertical Incidence Sky waves
2Radio Wave Propagation
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G3A - Sunspots and solar radiation; ionospheric disturbances;
propagation forecasting and indices
Radio Wave Propagation3
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Solar Effects
• Sun Spots –Sunspots look darker because they’re cooler than surrounding areas but emit ultraviolet light that charge the Ionosphere. More sunspots mean improved upper HF and lower VHF propagation.
• Sun Spot Cycle–Sunspots tend to come and go from minimum to maximum to minimum in an 11 year cycle. Different cycles have different maximums.
• Solar Emissions–Electromagnetic emissions like ultraviolet and x-rays arrive at the earth in only 8 minutes. Particle emissions can take 20-40 hours to arrive at the earth where they are pulled to the poles by the earth’s magnetic field.
• Solar Rotation–The sun rotates every 28 days (a solar day)
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Measuring the Sun
• Solar Flux–A measure of the sun’s noise at 10.7cm
• Solar K-index–The K-index quantifies disturbances in the horizontal component of earth's magnetic field during a 3 hour interval with an integer in the range 0-9 with 1 being calm and 5 or more indicating a geomagnetic storm
• Solar A-index–The A-index provides a daily average level for geomagnetic activity
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Ionospheric Layers
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Propagation
• Ionospheric Layers–The Atmosphere is divided into layers A,B,C,D,E,F–The Ionosphere consist of layers D, E, and F–The D layer absorbs low frequencies–The F layer typically reflects radio waves < 30 MHz
• Refraction–E layer refraction can be 1200 miles–The higher altitude F layer refraction can be 2500 miles
• Balancing Absorption and Refraction–D layer absorption defines Lowest Usable Frequency (LUF)–E and F layer refraction determine Maximum Usable Frequency (MUF)
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Critical Angle
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G3A01 - What is the significance of the sunspot number with regard to HF
propagation?
A. Higher sunspot numbers generally indicate a greater probability of good propagation at higher frequenciesB. Lower sunspot numbers generally indicate greater probability of sporadic E propagationC. A zero sunspot number indicate radio propagation is not possible on any bandD. All of these choices are correct.
Radio Wave Propagation10
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G3A01 - What is the significance of the sunspot number with regard to HF
propagation?
A. Higher sunspot numbers generally A. Higher sunspot numbers generally indicate a greater probability of good indicate a greater probability of good propagation at higher frequenciespropagation at higher frequenciesB. Lower sunspot numbers generally indicate greater probability of sporadic E propagationC. A zero sunspot number indicate radio propagation is not possible on any bandD. All of these choices are correct.
Radio Wave Propagation11
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G3A02 - What effect does a Sudden Ionospheric Disturbance have on the
daytime ionospheric propagation of HF radio waves?
A. It enhances propagation on all HF frequenciesB. It disrupts signals on lower frequencies more than those on higher frequencies C. It disrupts communications via satellite more than direct communicationsD. None, because only areas on the night side of the Earth are affected
Radio Wave Propagation12
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G3A02 - What effect does a Sudden Ionospheric Disturbance have on the
daytime ionospheric propagation of HF radio waves?
A. It enhances propagation on all HF frequencies
B. It disrupts signals on lower B. It disrupts signals on lower frequencies more than those on higher frequencies more than those on higher frequencies frequencies C. It disrupts communications via satellite more than direct communicationsD. None, because only areas on the night side of the Earth are affected
Radio Wave Propagation13
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G3A03 - Approximately how long does it take the increased ultraviolet and X-ray radiation from solar flares to affect radio
propagation on the Earth?
A. 28 days B. 1 to 2 hoursC. 8 minutesD. 20 to 40 hours
Radio Wave Propagation14
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G3A03 - Approximately how long does it take the increased ultraviolet and X-ray radiation from solar flares to affect radio
propagation on the Earth?
A. 28 days B. 1 to 2 hours
C. 8 minutesC. 8 minutesD. 20 to 40 hours
Radio Wave Propagation15
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G3A04 - Which of the following are least reliable for long distance communications
during periods of low solar activity?
A. 80 meters and 160 metersB. 60 meters and 40 metersC. 30 meters and 20 metersD. 15 meters, 12 meters and 10 meters
Radio Wave Propagation16
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G3A04 - Which of the following are least reliable for long distance communications
during periods of low solar activity?
A. 80 meters and 160 metersB. 60 meters and 40 metersC. 30 meters and 20 meters
D. 15 meters, 12 meters and 10 metersD. 15 meters, 12 meters and 10 meters
Radio Wave Propagation17
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G3A05 - What is the solar flux index?
A. A measure of the highest frequency that is useful for ionospheric propagation between two points on the Earth B. A count of sunspots which is adjusted for solar emissionsC. Another name for the American sunspot number D. A measure of solar radiation at 10.7 centimeters wavelength
Radio Wave Propagation18
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G3A05 - What is the solar flux index?
A. A measure of the highest frequency that is useful for ionospheric propagation between two points on the Earth B. A count of sunspots which is adjusted for solar emissionsC. Another name for the American sunspot number
D. A measure of solar radiation at 10.7 D. A measure of solar radiation at 10.7 centimeters wavelengthcentimeters wavelength
Radio Wave Propagation19
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G3A06 - What is a geomagnetic storm?
A. A sudden drop in the solar flux indexB. A thunderstorm which affects radio propagationC. Ripples in the ionosphereD. A temporary disturbance in the Earth's magnetosphere
Radio Wave Propagation20
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G3A06 - What is a geomagnetic storm?
A. A sudden drop in the solar flux indexB. A thunderstorm which affects radio propagationC. Ripples in the ionosphere
D. A temporary disturbance in the D. A temporary disturbance in the Earth's magnetosphereEarth's magnetosphere
Radio Wave Propagation21
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G3A07 - At what point in the solar cycle does the 20-meter band usually support worldwide propagation during
daylight hours?
A. At the summer solsticeB. Only at the maximum point of the solar cycleC. Only at the minimum point of the solar cycleD. At any point in the solar cycle
Radio Wave Propagation22
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G3A07 - At what point in the solar cycle does the 20-meter band usually support worldwide propagation during
daylight hours?
A. At the summer solsticeB. Only at the maximum point of the solar cycleC. Only at the minimum point of the solar cycle
D. At any point in the solar cycleD. At any point in the solar cycle
Radio Wave Propagation23
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G3A08 - Which of the following effects can a geomagnetic storm have on radio
propagation?
A. Improved high-latitude HF propagationB. Degraded high-latitude HF propagationC. Improved ground-wave propagationD. Improved chances of UHF ducting
Radio Wave Propagation24
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G3A08 - Which of the following effects can a geomagnetic storm have on radio
propagation?
A. Improved high-latitude HF propagation
B. Degraded high-latitude HF B. Degraded high-latitude HF propagationpropagationC. Improved ground-wave propagationD. Improved chances of UHF ducting
Radio Wave Propagation25
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G3A09 - What effect does a high sunspot number have on radio communications?
A. High-frequency radio signals become weak and distortedB. Frequencies above 300 MHz become usable for long-distance communicationC. Long-distance communication in the upper HF and lower VHF range is enhancedD. Microwave communications become unstable
Radio Wave Propagation26
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G3A09 - What effect does a high sunspot number have on radio communications?
A. High-frequency radio signals become weak and distortedB. Frequencies above 300 MHz become usable for long-distance communication
C. Long-distance communication in the C. Long-distance communication in the upper HF and lower VHF range is upper HF and lower VHF range is enhancedenhancedD. Microwave communications become unstable
Radio Wave Propagation27
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G3A10 - What causes HF propagation conditions to vary periodically in a 28
day cycle?
A. Long term oscillations in the upper atmosphereB. Cyclic variation in the Earth’s radiation beltsC. The Sun’s rotation on its axisD. The position of the Moon in its orbit
Radio Wave Propagation28
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G3A10 - What causes HF propagation conditions to vary periodically in a 28
day cycle?
A. Long term oscillations in the upper atmosphereB. Cyclic variation in the Earth’s radiation belts
C. The Sun’s rotation on its axisC. The Sun’s rotation on its axisD. The position of the Moon in its orbit
Radio Wave Propagation29
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G3A11 - Approximately how long is the typical sunspot cycle?
A. 8 minutesB. 40 hoursC. 28 daysD. 11 years
Radio Wave Propagation30
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G3A11 - Approximately how long is the typical sunspot cycle?
A. 8 minutesB. 40 hoursC. 28 days
D. 11 yearsD. 11 years
Radio Wave Propagation31
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K Index Chart
Radio Wave Propagation32
The Higher the The Higher the index the greater index the greater disruption there is disruption there is in the earth’s in the earth’s magnetic field magnetic field which in turn which in turn causes a causes a degradation of degradation of some HF some HF frequencies.frequencies.
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Solar Particles and the Magnetosphere
• Solar particle emissions are largely deflected by the earth’s magnetic field. Some are drawn to the poles and generate auroras.
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G3A12 - What does the K-index indicate?
A. The relative position of sunspots on the surface of the SunB. The short term stability of the Earth’s magnetic fieldC. The stability of the Sun's magnetic fieldD. The solar radio flux at Boulder, Colorado
Radio Wave Propagation34
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G3A12 - What does the K-index indicate?
A. The relative position of sunspots on the surface of the Sun
B. The short term stability of the B. The short term stability of the Earth’s magnetic fieldEarth’s magnetic fieldC. The stability of the Sun's magnetic fieldD. The solar radio flux at Boulder, Colorado
Radio Wave Propagation35
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G3A13 - What does the A-index indicate?
A. The relative position of sunspots on the surface of the Sun B. The amount of polarization of the Sun's electric fieldC. The long term stability of the Earth’s geomagnetic fieldD. The solar radio flux at Boulder, Colorado
Radio Wave Propagation36
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G3A13 - What does the A-index indicate?
A. The relative position of sunspots on the surface of the Sun B. The amount of polarization of the Sun's electric field
C. The long term stability of the Earth’s C. The long term stability of the Earth’s geomagnetic fieldgeomagnetic fieldD. The solar radio flux at Boulder, Colorado
Radio Wave Propagation37
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G3A14 - How are radio communications usually affected by the charged particles that reach the Earth from solar coronal
holes?
A. HF communications are improvedB. HF communications are disturbedC. VHF/UHF ducting is improvedD. VHF/UHF ducting is disturbed
Radio Wave Propagation38
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G3A14 - How are radio communications usually affected by the charged particles that reach the Earth from solar coronal
holes?
A. HF communications are improved
B. HF communications are disturbedB. HF communications are disturbedC. VHF/UHF ducting is improvedD. VHF/UHF ducting is disturbed
Radio Wave Propagation39
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G3A15 - How long does it take charged particles from coronal mass ejections to affect radio propagation
on the Earth?
A. 28 daysB. 14 daysC. 4 to 8 minutesD. 20 to 40 hours
Radio Wave Propagation40
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G3A15 - How long does it take charged particles from coronal mass ejections to affect radio propagation
on the Earth?
A. 28 daysB. 14 daysC. 4 to 8 minutes
D. 20 to 40 hoursD. 20 to 40 hours
Radio Wave Propagation41
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G3A16 - What is a possible benefit to radio communications resulting from periods of high geomagnetic activity?
A. Auroras that can reflect VHF signalsB. Higher signal strength for HF signals passing through the polar regionsC. Improved HF long path propagationD. Reduced long delayed echoes
Radio Wave Propagation42
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G3A16 - What is a possible benefit to radio communications resulting from periods of high geomagnetic activity?
A. Auroras that can reflect VHF signalsA. Auroras that can reflect VHF signalsB. Higher signal strength for HF signals passing through the polar regionsC. Improved HF long path propagationD. Reduced long delayed echoes
Radio Wave Propagation43
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G3B - Maximum Usable Frequency; Lowest Usable Frequency; propagation
Radio Wave Propagation44
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Backscatter Propagation
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G3B01 - How might a sky-wave signal sound if it arrives at your receiver by
both short path and long path propagation?
A. Periodic fading approximately every 10 secondsB. Signal strength increased by 3 dB C. The signal might be cancelled causing severe attenuationD. A well-defined echo might be heard
Radio Wave Propagation46
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G3B01 - How might a sky-wave signal sound if it arrives at your receiver by
both short path and long path propagation?
A. Periodic fading approximately every 10 secondsB. Signal strength increased by 3 dB C. The signal might be cancelled causing severe attenuation
D. A well-defined echo might be heardD. A well-defined echo might be heard
Radio Wave Propagation47
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G3B02 - Which of the following is a good indicator of the possibility of sky-wave
propagation on the 6-meter band?
A. Short skip sky-wave propagation on the 10-meter bandB. Long skip sky-wave propagation on the 10-meter bandC. Severe attenuation of signals on the 10-meter bandD. Long delayed echoes on the 10-meter band
Radio Wave Propagation48
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G3B02 - Which of the following is a good indicator of the possibility of sky-wave
propagation on the 6-meter band?
A. Short skip sky-wave propagation on the 10-A. Short skip sky-wave propagation on the 10-meter bandmeter bandB. Long skip sky-wave propagation on the 10-meter bandC. Severe attenuation of signals on the 10-meter bandD. Long delayed echoes on the 10-meter band
Radio Wave Propagation49
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G3B03 - Which of the following applies when selecting a frequency for lowest attenuation when transmitting on HF?
A. Select a frequency just below the MUFB. Select a frequency just above the LUFC. Select a frequency just below the critical frequencyD. Select a frequency just above the critical frequency
Radio Wave Propagation50
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G3B03 - Which of the following applies when selecting a frequency for lowest attenuation when transmitting on HF?
A. Select a frequency just below the MUFB. Select a frequency just above the LUFC. Select a frequency just below the critical frequencyD. Select a frequency just above the critical frequency
Radio Wave Propagation51
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IBP / NCDXF Beacon Transmissions• Frequency• Country Call 14100 18110 21150 24930 28200
• UN, NY 4U1UN 00.00 00.10 00.20 00.30 00.40• N. Canada VE8AT 00.10 00.20 00.30 00.40 00.50• USA (CA) W6WX 00:20 00.30 00:40 00.50 01:00• Hawaii KH6WO 00.30 - 00.50 - 01.10• New Zealand ZL6B 00.40 00.50 01.00 01.10 01.20• W. Australia VK6RBP 00.50 01.00 01.10 01.20 01.30• Japan JA2IGY 01.00 01.10 01.20 01.30 01.40• Siberia RR9O 01.10 01.20 01.30 01.40 01.50• China VR2HK 01.20 01.30 01.40 01.50 02.00• Sri Lanka 4S7B 01.30 01.40 01.50 02.00 02.10• South Africa ZS6DN 01:40 01.50 02:00 02:10 02:20• Kenya 5Z4B 01.50 02.00 02.10 02.20 02.30• Israel 4X6TU 02:00 02:10 02:20 02.30 02:40• Finland OH2B 02:10 02:20 02:30 02:40 02:50• Madeira CS3B 02.20 02.30 02.40 02.50 00.00• Argentina LU4AA 02:30 02:40 02:50 00.00 00:10• Peru OA4B 02.40 02.50 00.00 00.10 00.20• Venezuela YV5B 02:50 00.00 00:10 00:20 00:30
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G3B04 - What is a reliable way to determine if the MUF is high enough to support skip propagation between your
station and a distant location on frequencies between 14 and 30 MHz?
A. Listen for signals from an international beacon in the frequency range you plan to useB. Send a series of dots on the band and listen for echoes from your signalC. Check the strength of TV signals from Western EuropeD. Check the strength of signals in the MF AM broadcast band
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G3B04 - What is a reliable way to determine if the MUF is high enough to support skip propagation between your
station and a distant location on frequencies between 14 and 30 MHz?
A. Listen for signals from an international A. Listen for signals from an international beacon in the frequency range you plan to usebeacon in the frequency range you plan to useB. Send a series of dots on the band and listen for echoes from your signalC. Check the strength of TV signals from Western EuropeD. Check the strength of signals in the MF AM broadcast band
Radio Wave Propagation54
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G3B05 - What usually happens to radio waves with frequencies below the MUF and above the LUF when they are sent
into the ionosphere?A. They are bent back to the EarthB. They pass through the ionosphereC. They are amplified by interaction with the ionosphereD. They are bent and trapped in the ionosphere to circle the Earth
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G3B05 - What usually happens to radio waves with frequencies below the MUF and above the LUF when they are sent
into the ionosphere?
A. They are bent back to the EarthA. They are bent back to the EarthB. They pass through the ionosphereC. They are amplified by interaction with the ionosphereD. They are bent and trapped in the ionosphere to circle the Earth
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G3B06 - What usually happens to radio waves with frequencies below the LUF?
A. They are bent back to the EarthB. They pass through the ionosphereC. They are completely absorbed by the ionosphereD. They are bent and trapped in the ionosphere to circle the Earth
Radio Wave Propagation57
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G3B06 - What usually happens to radio waves with frequencies below the LUF?
A. They are bent back to the EarthB. They pass through the ionosphere
C. They are completely absorbed by the C. They are completely absorbed by the ionosphereionosphereD. They are bent and trapped in the ionosphere to circle the Earth
Radio Wave Propagation58
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G3B07 - What does LUF stand for?
A. The Lowest Usable Frequency for communications between two pointsB. The Longest Universal Function for communications between two pointsC. The Lowest Usable Frequency during a 24 hour periodD. The Longest Universal Function during a 24 hour period
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G3B07 - What does LUF stand for?
A. The Lowest Usable Frequency for A. The Lowest Usable Frequency for communications between two pointscommunications between two pointsB. The Longest Universal Function for communications between two pointsC. The Lowest Usable Frequency during a 24 hour periodD. The Longest Universal Function during a 24 hour period
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G3B08 - What does MUF stand for?
A. The Minimum Usable Frequency for communications between two pointsB. The Maximum Usable Frequency for communications between two pointsC. The Minimum Usable Frequency during a 24 hour periodD. The Maximum Usable Frequency during a 24 hour period
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G3B08 - What does MUF stand for?
A. The Minimum Usable Frequency for communications between two points
B. The Maximum Usable Frequency for B. The Maximum Usable Frequency for communications between two pointscommunications between two pointsC. The Minimum Usable Frequency during a 24 hour periodD. The Maximum Usable Frequency during a 24 hour period
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G3B09 - What is the approximate maximum distance along the Earth's
surface that is normally covered in one hop using the F2 region?
A. 180 milesB. 1,200 milesC. 2,500 milesD. 12,000 miles
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G3B09 - What is the approximate maximum distance along the Earth's
surface that is normally covered in one hop using the F2 region?
A. 180 milesB. 1,200 miles
C. 2,500 milesC. 2,500 milesD. 12,000 miles
Radio Wave Propagation64
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G3B10 - What is the approximate maximum distance along the Earth's
surface that is normally covered in one hop using the E region?
A. 180 miles B. 1,200 miles C. 2,500 miles D. 12,000 miles
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G3B10 - What is the approximate maximum distance along the Earth's
surface that is normally covered in one hop using the E region?
A. 180 miles
B. 1,200 miles B. 1,200 miles C. 2,500 miles D. 12,000 miles
Radio Wave Propagation66
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G3B11 - What happens to HF propagation when the LUF exceeds
the MUF?
A. No HF radio frequency will support ordinary sky-wave communications over the pathB. HF communications over the path are enhancedC. Double hop propagation along the path is more commonD. Propagation over the path on all HF frequencies is enhanced
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G3B11 - What happens to HF propagation when the LUF exceeds
the MUF?
A. No HF radio frequency will support A. No HF radio frequency will support ordinary sky-wave communications ordinary sky-wave communications over the pathover the pathB. HF communications over the path are enhancedC. Double hop propagation along the path is more commonD. Propagation over the path on all HF frequencies is enhanced
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G3B12 - What factor or factors affect the MUF?
A. Path distance and locationB. Time of day and seasonC. Solar radiation and ionospheric disturbancesD. All of these choices are correct
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Noon Time View of the Noon Time View of the magnetic fluxmagnetic flux
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G3B12 - What factor or factors affect the MUF?
A. Path distance and locationB. Time of day and seasonC. Solar radiation and ionospheric disturbances
D. All of these choices are correctD. All of these choices are correct
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G3C - Ionospheric layers; critical angle and frequency; HF scatter; Near
Vertical Incidence Sky-wave
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G3C01 - Which ionospheric layer is closest to the surface of the Earth?
A. The D layerB. The E layerC. The F1 layerD. The F2 layer
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G3C01 - Which ionospheric layer is closest to the surface of the Earth?
A. The D layerA. The D layerB. The E layerC. The F1 layerD. The F2 layer
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G3C02 - Where on the Earth do ionospheric layers reach their maximum
height?
A. Where the Sun is overheadB. Where the Sun is on the opposite side of the EarthC. Where the Sun is rising D. Where the Sun has just set
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G3C02 - Where on the Earth do ionospheric layers reach their maximum
height?
A. Where the Sun is overheadA. Where the Sun is overheadB. Where the Sun is on the opposite side of the EarthC. Where the Sun is rising D. Where the Sun has just set
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G3C03 - Why is the F2 region mainly responsible for the longest distance radio
wave propagation?
A. Because it is the densest ionospheric layerB. Because it does not absorb radio waves as much as other ionospheric regionsC. Because it is the highest ionospheric regionD. All of these choices are correct
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G3C03 - Why is the F2 region mainly responsible for the longest distance radio
wave propagation?
A. Because it is the densest ionospheric layerB. Because it does not absorb radio waves as much as other ionospheric regions
C. Because it is the highest ionospheric C. Because it is the highest ionospheric regionregionD. All of these choices are correct
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Critical Angle of Take Off
Radio Wave Propagation79
These rays, which return toEarth, provide communications,Unless you want to talk to E.T.
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G3C04 - What does the term "critical angle" mean as used in radio wave
propagation?
A. The long path azimuth of a distant stationB. The short path azimuth of a distant stationC. The lowest takeoff angle that will return a radio wave to the Earth under specific ionospheric conditionsD. The highest takeoff angle that will return a radio wave to the Earth under specific ionospheric conditions
Radio Wave Propagation80
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G3C04 - What does the term "critical angle" mean as used in radio wave
propagation?
A. The long path azimuth of a distant stationB. The short path azimuth of a distant stationC. The lowest takeoff angle that will return a radio wave to the Earth under specific ionospheric conditions
D. The highest takeoff angle that will D. The highest takeoff angle that will return a radio wave to the Earth under return a radio wave to the Earth under specific ionospheric conditions specific ionospheric conditions
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G3C05 - Why is long distance communication on the 40-meter, 60-meter,
80-meter and 160-meter bands more difficult during the day?
A. The F layer absorbs signals at these frequencies during daylight hoursB. The F layer is unstable during daylight hoursC. The D layer absorbs signals at these frequencies during daylight hoursD. The E layer is unstable during daylight hours
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G3C05 - Why is long distance communication on the 40-meter, 60-meter,
80-meter and 160-meter bands more difficult during the day?
A. The F layer absorbs signals at these frequencies during daylight hoursB. The F layer is unstable during daylight hours
C. The D layer absorbs signals at these C. The D layer absorbs signals at these frequencies during daylight hoursfrequencies during daylight hoursD. The E layer is unstable during daylight hours
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G3C06 - What is a characteristic of HF scatter signals?
A. They have high intelligibilityB. They have a wavering soundC. They have very large swings in signal strengthD. All of these choices are correct
Radio Wave Propagation85
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G3C06 - What is a characteristic of HF scatter signals?
A. They have high intelligibility
B. They have a wavering soundB. They have a wavering soundC. They have very large swings in signal strengthD. All of these choices are correct
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G3C07 - What makes HF scatter signals often sound distorted?
A. The ionospheric layer involved is unstableB. Ground waves are absorbing much of the signalC. The E-region is not presentD. Energy is scattered into the skip zone through several different radio wave paths
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G3C07 - What makes HF scatter signals often sound distorted?
A. The ionospheric layer involved is unstableB. Ground waves are absorbing much of the signalC. The E-region is not present
D. Energy is scattered into the skip D. Energy is scattered into the skip zone through several different radio zone through several different radio wave pathswave paths
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G3C08 - Why are HF scatter signals in the skip zone usually weak?
A. Only a small part of the signal energy is scattered into the skip zoneB. Signals are scattered from the magnetosphere which is not a good reflectorC. Propagation is through ground waves which absorb most of the signal energyD. Propagations is through ducts in F region which absorb most of the energy
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G3C08 - Why are HF scatter signals in the skip zone usually weak?
A. Only a small part of the signal energy is A. Only a small part of the signal energy is scattered into the skip zonescattered into the skip zoneB. Signals are scattered from the magnetosphere which is not a good reflectorC. Propagation is through ground waves which absorb most of the signal energyD. Propagations is through ducts in F region which absorb most of the energy
Radio Wave Propagation90
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G3C09 - What type of radio wave propagation allows a signal to be detected
at a distance too far for ground wave propagation but too near for normal sky-
wave propagation?
A. Faraday rotationB. ScatterC. Sporadic-E skipD. Short-path skip
Radio Wave Propagation91
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G3C09 - What type of radio wave propagation allows a signal to be detected
at a distance too far for ground wave propagation but too near for normal sky-
wave propagation?
A. Faraday rotation
B. ScatterB. ScatterC. Sporadic-E skipD. Short-path skip
Radio Wave Propagation92
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G3C10 - Which of the following might be an indication that signals heard on the HF bands are being received via
scatter propagation?
A. The communication is during a sunspot maximumB. The communication is during a sudden ionospheric disturbanceC. The signal is heard on a frequency below the Maximum Usable FrequencyD. The signal is heard on a frequency above the Maximum Usable Frequency
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G3C10 - Which of the following might be an indication that signals heard on the HF bands are being received via
scatter propagation?
A. The communication is during a sunspot maximumB. The communication is during a sudden ionospheric disturbanceC. The signal is heard on a frequency below the Maximum Usable Frequency
D. The signal is heard on a frequency D. The signal is heard on a frequency above the Maximum Usable Frequencyabove the Maximum Usable Frequency
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G3C11 - Which of the following antenna types will be most effective for skip
communications on 40-meters during the day?
A. A vertical antennaB. A horizontal dipole placed between 1/8 and 1/4 wavelength above the groundC. A left-hand circularly polarized antennaD. A light-hand circularly polarized antenna
Radio Wave Propagation95
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G3C11 - Which of the following antenna types will be most effective for skip
communications on 40-meters during the day?
A. A vertical antenna
B. A horizontal dipole placed between B. A horizontal dipole placed between 1/8 and 1/4 wavelength above the 1/8 and 1/4 wavelength above the groundgroundC. A left-hand circularly polarized antennaD. A light-hand circularly polarized antenna
Radio Wave Propagation96
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G3C12 - Which ionospheric layer is the most absorbent of long skip signals
during daylight hours on frequencies below 10 MHz?
A. The F2 layerB. The F1 layerC. The E layerD. The D layer
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G3C12 - Which ionospheric layer is the most absorbent of long skip signals
during daylight hours on frequencies below 10 MHz?
A. The F2 layerB. The F1 layerC. The E layer
D. The D layerD. The D layer
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G3C13 - What is Near Vertical Incidence Sky-wave ( NVIS )
propagation?A. Propagation near the MUFB. Short distance MF or HF propagation using high elevation anglesC. Long path HF propagation at sunrise and sunsetD. Double hop propagation near the LUF
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G3C13 - What is Near Vertical Incidence Sky-wave ( NVIS )
propagation?A. Propagation near the MUF
B. Short distance MF or HF propagation B. Short distance MF or HF propagation using high elevation anglesusing high elevation anglesC. Long path HF propagation at sunrise and sunsetD. Double hop propagation near the LUF
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End ofSUBELEMENT G3
RADIO WAVE PROPAGATION