You’ll find a “how-to” manual on every airplane that describes how to operate that particular model, called the pilot’s operating handbook, or POH. This week’s tip takes a look at the information contained in the POH, along with the differences between the version that must be kept on the airplane and the one sold off the shelf at the local pilot shop.
The FAA recently released change 2 of the Aeronautical Information Manual (AIM) effective May 19, 2022. AIM updates include:
2−2−4. LED LIGHTING SYSTEMS
This change adds a new paragraph providing information and clarity in order to emphasize the importance of incorporating procedures—for the avoidance of obstacles marked with light−emitting diode (LED) obstruction lights during night vision goggles (NVG) operations—into manuals and/or standard operating procedures (SOP).
5−4−5. INSTRUMENT APPROACH PROCEDURE (IAP) CHARTS
FAA Order 8260.46 is updated to reflect adding minimum safe altitudes (MSAs) to graphic departures. This AIM change reflects the new terminal instrument procedures (TERPS) guidance.
7−1−2. FAA WEATHER SERVICES
This change adds a new table for SPECI issuance including snow−related intensity changes so flight crews can accurately assess holdover time limitations.
7−6−2. REPORTING RADIO/RADAR ALTIMETER ANOMALIES
This change adds a new paragraph to address the issue of radio frequency interference (RFI) in the C−band that could cause erroneous radio altimeter values and impact dependent system functions due to the deployment of 5G antennas.
The FAA recently added a new feature to its online medical application system, MedXPress, that allows pilots to track the status of their medical certificates online throughout the application and review process. Prior to adding this new feature, pilots had to call to check their application status, or, in many cases, remain in the dark.
As soon as an application is submitted, it will appear in the pilot’s MedXPress profile. Status updates will change as the application moves through the FAA’s review process. If an application is deferred or denied, the applicant will still receive detailed information through the mail.
The certification process itself does not change. You can access FAA’s MedXPress at medxpress.faa.gov.
https://media.flighttrainingcentral.com/wp-content/uploads/2016/01/05182011/doctor-listening-to-mans-chest.jpg691971Eric Radtkehttps://media.flighttrainingcentral.com/wp-content/uploads/2022/01/05155154/FTC-logo-horizontal-fianl.pngEric Radtke2022-05-20 10:00:292022-05-20 10:32:23Pilots can now track medical applications in real-time
The Pilot/Controller Glossary was compiled to promote a common understanding of the terms used in the Air Traffic
Control system. It includes those terms which are intended for pilot/controller communications with definitions primarily defined in an operational sense applicable to both users and operators of the National Airspace System.
The Glossary also includes cross-references to other documents, such as the Code of Federal Regulations (CFR) and the Aeronautical Information Manual (AIM). The Glossary is revised, as necessary, to maintain a common understanding of the system. Change 2 of the Glossary was recently published with an effective date of May 19 and includes these updates:
Terms Added:
ADAPTED ROUTES
AIRSPACE RESERVATION
DEBRIS RESPONSE AREA (DRA)
EMBEDDED ROUTE TEXT
HOT SPOT
MOVING AIRSPACE RESERVATION
MOVING ALTITUDE RESERVATION
STATIONARY AIRSPACE RESERVATION
Terms Deleted:
PREFERENTIAL ROUTES
Terms Modified:
ALTITUDE RESERVATION (ALTRV)
CLEARANCE VOID IF NOT OFF BY (TIME)
MINIMUM SAFE ALTITUDE (MSA)
OCEANIC ERROR REPORT
PRECISION APPROACH RADAR
PREFERRED IFR ROUTES
STATIONARY ALTITUDE RESERVATION (STATIONARY ALTRV)
You’ll need to modify your takeoff and landing procedures when operating from shorter runways to obtain the maximum performance from the airplane. These techniques will allow you to shorten the ground roll and also provide additional clearance over obstacles if they are present near the runway.
https://media.flighttrainingcentral.com/wp-content/uploads/2017/03/05180148/Short-Field-Takeoff-and-Landing-HD-1080p-YT.jpg9221640Bret Koebbehttps://media.flighttrainingcentral.com/wp-content/uploads/2022/01/05155154/FTC-logo-horizontal-fianl.pngBret Koebbe2022-05-18 09:00:222022-05-18 09:47:53Video tip: takeoff and landing techniques from a short runway
To be a good pilot, you have to balance many different skills: pre-flight planning, weather analysis, communications, stick and rudder flying, plus a whole lot more. Flying involves art and science, left brain and right brain. In many ways, this diversity is part of what makes learning to fly so fun and rewarding, but it also makes it hard to focus on the most important things.
At the end of the day, is there a single skill that is most important? One that would, if mastered, have the greatest impact on your ability to fly safely? I think there are actually two, one mental and one physical.
Good landings are the results of good approaches—which means on speed.
On the mental side, it’s hard to overstate how important judgment is (AKA, aeronautical decision making or risk management). This topic gets a lot of attention already, so in this article I’d like to focus on the physical side, specifically airspeed control.
It may not sound as exciting as crosswind landings or short field takeoffs, but learning to precisely control your airspeed is a foundational skill that makes these other skills easier to master. It demands discipline, practice, and attention, but it rewards you with smoother, safer flights. It’s also a skill that translates well to any airplane, from Cessna to Boeing.
Every airplane has a correct airspeed to fly for each segment of a flight: rotation speed on takeoff, best climb over an obstacle, cruise speed in turbulence, initial approach, and final approach. The climb and approach speeds are most critical, as they are used during phases of flight close to the ground that offer little margin for error. If you miss your cruise speed by 10 knots, it’s probably not a big deal; miss Vy by 10 knots and you might stall.
Many of these airspeeds are published in the Pilot’s Operating Handbook, and should be committed to memory. Others may require you to ask your flight instructor or go practice, but can still be determined with pretty good certainty. Some flight schools post these important airspeeds on a placard on the panel.
Knowing the right airspeed is only part of the job. Flying at the right airspeed—every single time—is what can really improve safety. In fact, two of the most common accidents in general aviation can be traced back to poor airspeed discipline:
Low altitude loss of control accidents are all-too-common. The typical scenario here involves a pilot getting too slow in the pattern and eventually stalling/spinning the airplane into the ground, often on a base-to-final turn or after takeoff. Now, you’ve probably had it beaten into your head that an airplane can stall at any airspeed—it’s angle of attack that matters. That’s certainly true, but so is this: if you fly within normal operating limitations (no 80 degree banks or 3G pull-ups), airspeed is an excellent substitute for angle of attack. Keep your airspeed where it should be and you won’t stall. It’s that simple.
Runway incidents are another common accident, and are also related to airspeed control. Whereas stall/spin accidents are almost always a result of getting too slow, these are often a result of being too fast. The pilot either lands long and goes off the end of the runway or forces the airplane on the runway and damages the nose wheel and propeller. If you’re 15 knots fast on short final, you can’t make the airplane land—a go-around may be the best decision.
Beyond just safer flying, good airspeed control usually leads to smoother flying too. Most passengers don’t like rapid changes in speed or altitude, as it makes them question whether the pilot is really in control. By flying a constant airspeed climb or approach (and not adjusting the throttle every five seconds), you’ll have happier passengers and a happier airplane.
Nail that airspeed, every time.
Good airspeed control also pays off as you progress in your flying. It’s critical for operating at busy airports, where Air Traffic Control may ask you to maintain a specific speed for spacing. If they ask for 120 knots until three mile final, you need to be able to hold that or endure the wrath of an upset controller.
If your career goals include flying jets, airspeed discipline is even more important. Jet pilots calculate a specific approach speed (Vref) before every landing, then maintain this speed religiously until landing. It’s common in two pilot crews for the pilot not flying to make regular airspeed callouts throughout the approach. Why all the fuss? At the higher approach speeds of jets, even 10 knots too high on final approach can be fatal.
The good news is airspeed control can be practiced on every segment of every flight. Learn the profiles—what power setting plus pitch attitude plus flap setting results in the airspeed you want? Practice flying at the right airspeed, minus 0 knots and plus 5 knots, first in light winds but then in stronger winds.
This may not be the most exciting flying you do, but it does pay off. Once you master airspeed control, you may be surprised how much better the rest of your flying gets.
https://media.flighttrainingcentral.com/wp-content/uploads/2012/04/05160002/172-landing.bak.jpg6641019John Zimmermanhttps://media.flighttrainingcentral.com/wp-content/uploads/2022/01/05155154/FTC-logo-horizontal-fianl.pngJohn Zimmerman2022-05-16 10:00:002022-05-07 21:03:17The most important skill for new pilots to master: airspeed control
Video tip: the pilot’s operating handbook (POH)
/in Video Tips/by Bret KoebbeYou’ll find a “how-to” manual on every airplane that describes how to operate that particular model, called the pilot’s operating handbook, or POH. This week’s tip takes a look at the information contained in the POH, along with the differences between the version that must be kept on the airplane and the one sold off the shelf at the local pilot shop.
The video clip is from Sporty’s 2022 Learn to Fly Course
FAA releases AIM update (change 2) effective May 19, 2022
/in Regulations/by Eric Radtke2−2−4. LED LIGHTING SYSTEMS
This change adds a new paragraph providing information and clarity in order to emphasize the importance of incorporating procedures—for the avoidance of obstacles marked with light−emitting diode (LED) obstruction lights during night vision goggles (NVG) operations—into manuals and/or standard operating procedures (SOP).
5−4−5. INSTRUMENT APPROACH PROCEDURE (IAP) CHARTS
FAA Order 8260.46 is updated to reflect adding minimum safe altitudes (MSAs) to graphic departures. This AIM change reflects the new terminal instrument procedures (TERPS) guidance.
7−1−2. FAA WEATHER SERVICES
This change adds a new table for SPECI issuance including snow−related intensity changes so flight crews can accurately assess holdover time limitations.
7−6−2. REPORTING RADIO/RADAR ALTIMETER ANOMALIES
This change adds a new paragraph to address the issue of radio frequency interference (RFI) in the C−band that could cause erroneous radio altimeter values and impact dependent system functions due to the deployment of 5G antennas.
The explanation of changes (change 2) can be found here.
The complete AIM publication can be found here.
Pilots can now track medical applications in real-time
/in Tips and technique/by Eric Radtkedoctor talking to her male patient at office
The FAA recently added a new feature to its online medical application system, MedXPress, that allows pilots to track the status of their medical certificates online throughout the application and review process. Prior to adding this new feature, pilots had to call to check their application status, or, in many cases, remain in the dark.
As soon as an application is submitted, it will appear in the pilot’s MedXPress profile. Status updates will change as the application moves through the FAA’s review process. If an application is deferred or denied, the applicant will still receive detailed information through the mail.
The certification process itself does not change. You can access FAA’s MedXPress at medxpress.faa.gov.
Pilot/Controller Glossary – change 2 effective May 19, 2022
/in Regulations/by Eric RadtkeControl system. It includes those terms which are intended for pilot/controller communications with definitions primarily defined in an operational sense applicable to both users and operators of the National Airspace System.
The Glossary also includes cross-references to other documents, such as the Code of Federal Regulations (CFR) and the Aeronautical Information Manual (AIM). The Glossary is revised, as necessary, to maintain a common understanding of the system. Change 2 of the Glossary was recently published with an effective date of May 19 and includes these updates:
Terms Added:
ADAPTED ROUTES
AIRSPACE RESERVATION
DEBRIS RESPONSE AREA (DRA)
EMBEDDED ROUTE TEXT
HOT SPOT
MOVING AIRSPACE RESERVATION
MOVING ALTITUDE RESERVATION
STATIONARY AIRSPACE RESERVATION
Terms Deleted:
PREFERENTIAL ROUTES
Terms Modified:
ALTITUDE RESERVATION (ALTRV)
CLEARANCE VOID IF NOT OFF BY (TIME)
MINIMUM SAFE ALTITUDE (MSA)
OCEANIC ERROR REPORT
PRECISION APPROACH RADAR
PREFERRED IFR ROUTES
STATIONARY ALTITUDE RESERVATION (STATIONARY ALTRV)
You can access the latest glossary in Sporty’s free FAA Handbook Library.
Video tip: takeoff and landing techniques from a short runway
/in Tips and technique, Video Tips/by Bret KoebbeYou’ll need to modify your takeoff and landing procedures when operating from shorter runways to obtain the maximum performance from the airplane. These techniques will allow you to shorten the ground roll and also provide additional clearance over obstacles if they are present near the runway.
The video clip is from Sporty’s 2022 Learn to Fly Course
The most important skill for new pilots to master: airspeed control
/in Tips and technique/by John ZimmermanTo be a good pilot, you have to balance many different skills: pre-flight planning, weather analysis, communications, stick and rudder flying, plus a whole lot more. Flying involves art and science, left brain and right brain. In many ways, this diversity is part of what makes learning to fly so fun and rewarding, but it also makes it hard to focus on the most important things.
At the end of the day, is there a single skill that is most important? One that would, if mastered, have the greatest impact on your ability to fly safely? I think there are actually two, one mental and one physical.
Good landings are the results of good approaches—which means on speed.
On the mental side, it’s hard to overstate how important judgment is (AKA, aeronautical decision making or risk management). This topic gets a lot of attention already, so in this article I’d like to focus on the physical side, specifically airspeed control.
It may not sound as exciting as crosswind landings or short field takeoffs, but learning to precisely control your airspeed is a foundational skill that makes these other skills easier to master. It demands discipline, practice, and attention, but it rewards you with smoother, safer flights. It’s also a skill that translates well to any airplane, from Cessna to Boeing.
Every airplane has a correct airspeed to fly for each segment of a flight: rotation speed on takeoff, best climb over an obstacle, cruise speed in turbulence, initial approach, and final approach. The climb and approach speeds are most critical, as they are used during phases of flight close to the ground that offer little margin for error. If you miss your cruise speed by 10 knots, it’s probably not a big deal; miss Vy by 10 knots and you might stall.
Many of these airspeeds are published in the Pilot’s Operating Handbook, and should be committed to memory. Others may require you to ask your flight instructor or go practice, but can still be determined with pretty good certainty. Some flight schools post these important airspeeds on a placard on the panel.
Knowing the right airspeed is only part of the job. Flying at the right airspeed—every single time—is what can really improve safety. In fact, two of the most common accidents in general aviation can be traced back to poor airspeed discipline:
Beyond just safer flying, good airspeed control usually leads to smoother flying too. Most passengers don’t like rapid changes in speed or altitude, as it makes them question whether the pilot is really in control. By flying a constant airspeed climb or approach (and not adjusting the throttle every five seconds), you’ll have happier passengers and a happier airplane.
Nail that airspeed, every time.
Good airspeed control also pays off as you progress in your flying. It’s critical for operating at busy airports, where Air Traffic Control may ask you to maintain a specific speed for spacing. If they ask for 120 knots until three mile final, you need to be able to hold that or endure the wrath of an upset controller.
If your career goals include flying jets, airspeed discipline is even more important. Jet pilots calculate a specific approach speed (Vref) before every landing, then maintain this speed religiously until landing. It’s common in two pilot crews for the pilot not flying to make regular airspeed callouts throughout the approach. Why all the fuss? At the higher approach speeds of jets, even 10 knots too high on final approach can be fatal.
The good news is airspeed control can be practiced on every segment of every flight. Learn the profiles—what power setting plus pitch attitude plus flap setting results in the airspeed you want? Practice flying at the right airspeed, minus 0 knots and plus 5 knots, first in light winds but then in stronger winds.
This may not be the most exciting flying you do, but it does pay off. Once you master airspeed control, you may be surprised how much better the rest of your flying gets.