General/Chapter 8 Study Guide: Difference between revisions
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** Height of regions vary with season, TOD, latitude, solar activity | ** Height of regions vary with season, TOD, latitude, solar activity | ||
** F2 is highest layer, reaches highest point at noon | ** F2 is highest layer, reaches highest point at noon | ||
Reflection and absorption | |||
* Weak conduction of layers allows bending/refracting of waves | |||
* Layers of ionosphere can bend waves | |||
* Bending o waves depends on ionization level, and wave frequency | |||
* VHF/UHF waves hardly bent at all | |||
* HF waves bent, can be reflected back to Earth | |||
* Weaker bending requires lower takeoff angles, otherwise waves lost to space | |||
* '''Critical angle''' - angle above which all energy lost to space | |||
* '''Critical frequency''' - frequency above which all energy lost to space (if pointed straight up) | |||
* '''Ionosonde''' - device used for measuring reflection of radio waves by ionosphere | |||
* Absorption is the enemy of propagation | |||
* In D and E layers, waves pass through denser gas regions, absorbed as they are refracted | |||
* For HF bands, below 10 MHz, AM broadcast bands, the D layer completely absorbs radio waves | |||
* Absorption increases with sunlight, ionization, more UV, and lower frequencies | |||
===Section 8.1 Summary=== | ===Section 8.1 Summary=== | ||
=Flags= | =Flags= | ||
{{GeneralFlag}} | {{GeneralFlag}} | ||
Revision as of 22:39, 30 June 2016
Section 8.1: Ionosphere
- Atmosphere gets thinner as you go further away
- At 30 miles in altitude, gets thin enough that UV rays can knock electrons away from molecules
- Gas is ionized by loss of electron, positively charged ion, negative free electron
- Ion + electron respond to voltage, like electrons in conductor
- Atmospheric layer - ionosphere - becomes weak conductor
- Ionosphere extends to 300 miles above surface of Earth
Regions:
- ISS orbits 200 miles above Earht
- Ionosphere arranged into multiple layers (D, E, F layers)
- D layer - 30-60 miles, only present when illuminated by sun
- E layer - 60-70 miles, similar to D region, lasts longer after sunset
- F layer - 100-300 miles, least dens,e partially ionized at night
- F1 layer/F2 layer - split during day, recombine at night
- Height of regions vary with season, TOD, latitude, solar activity
- F2 is highest layer, reaches highest point at noon
Reflection and absorption
- Weak conduction of layers allows bending/refracting of waves
- Layers of ionosphere can bend waves
- Bending o waves depends on ionization level, and wave frequency
- VHF/UHF waves hardly bent at all
- HF waves bent, can be reflected back to Earth
- Weaker bending requires lower takeoff angles, otherwise waves lost to space
- Critical angle - angle above which all energy lost to space
- Critical frequency - frequency above which all energy lost to space (if pointed straight up)
- Ionosonde - device used for measuring reflection of radio waves by ionosphere
- Absorption is the enemy of propagation
- In D and E layers, waves pass through denser gas regions, absorbed as they are refracted
- For HF bands, below 10 MHz, AM broadcast bands, the D layer completely absorbs radio waves
- Absorption increases with sunlight, ionization, more UV, and lower frequencies
Section 8.1 Summary
Flags
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General Class Ham License Notes from studying for my General Class ham license.
Chapter 2: Procedures and Practices: General/Chapter 2 Study Guide Chapter 3: Rules and Regulations: General/Chapter 3 Study Guide Chapter 4: Components and Circuits: General/Chapter 4 Study Guide Chapter 5: Radio Signals and Equipment: General/Chapter 5 Study Guide Chapter 6: Digital Modes: General/Chapter 6 Study Guide Chapter 7: Antennas: General/Chapter 7 Study Guide Chapter 8: Propagation: General/Chapter 8 Study Guide Chapter 9: Electrical and RF Safety: General/Chapter 9 Study Guide Flags · Template:GeneralFlag · e |