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MountainDude
Well said. That's what airlines do.Unfortunately, light twin on a VMC training mission that crashes isn't really going to stump investigators. These have been pervasive since the invention of light twins and ME rating requirements for VMC demonstrations.
One of my college profs was killed as a student in Baron VMC training gone bad back in the early 2000's. Flat spin from 8000' into a corn field.
Once could argue in the past, there wasn't another option than live filght -- with simulators today it sure seems like we could find another way to handle this part of ME training and stop expecting low time pilots AND low time instructors to consistently put their lives in danger. Even experienced MEIs and DPEs have lost their lives as you're operating at the edge of the envelope where small mistakes by the student can override the best skills available.
Id agree with you. I think Juan is trying to use this to further his crusade, nothing else.I'd like to think the pilot was simply trying to transmit the reason they were crashing and not, as Brown assumes, asking for help. That would be a heroic action that could help investigators. Maybe it's why nobody in this thread is speculating as to the cause — we already know.
I'd like to think the pilot was simply trying to transmit the reason they were crashing and not, as Brown assumes, asking for help. That would be a heroic action that could help investigators. Maybe it's why nobody in this thread is speculating as to the cause — we already know.
Prioritizing comms, irrationally but calmly, while otherwise locking up and/or misapplying the necessary control inputs to recover the aircraft, is a common one. It's a startled reflex, it just doesn't sound like one. Again, seen it too many times, especially during my days working in primary training (T-6 II). Lots of control input freeze/lock-ups, while talking to you or trying to finish a radio call to ATC casually.
Lastly, lionizing pilot error causals under the consolatory rebranding of heroics just because some are uncomfortable with the notion that people died of their mistakes, doesn't do those attempting to learn from it one damn bit of good. I mean this with respect, but if I had a quarter for every time I've heard "withheld/delayed ejection to save innocents on the ground" from the grieving survivors and the media
I see no reason for Vmc demos, either in airplanes or simulators. Most of the time they’re done in airplanes designed to have benign flight characteristics in that flight regime, contrary to the twins that most people will fly in “real life”. A competent instructor could teach the proper response in a Citabria…opposite rudder, reduce thrust, lower the nose. Basically we’re teaching incipient spin recoveries in an airplane that’s not certified for spins, and is unlikely to recover if a spin is entered. The overwhelming majority of pilots I’ve seen get to that point in a sim actually increased thrust on the good engine and pulled back on the stick.Unfortunately, light twin on a VMC training mission that crashes isn't really going to stump investigators. These have been pervasive since the invention of light twins and ME rating requirements for VMC demonstrations.
One of my college profs was killed as a student in Baron VMC training gone bad back in the early 2000's. Flat spin from 8000' into a corn field.
Once could argue in the past, there wasn't another option than live filght -- with simulators today it sure seems like we could find another way to handle this part of ME training and stop expecting low time pilots AND low time instructors to consistently put their lives in danger. Even experienced MEIs and DPEs have lost their lives as you're operating at the edge of the envelope where small mistakes by the student can override the best skills available.
Totally agree on using sims to train this. But would require every MEI/Flight School to have access to one, and revamping of the DPE checkride to involve both in flight and sim evaluation. I have a pretty extensive home sim setup and parameters that match my Seneca so I can train these events. But to make one "certified" would be prohibitively expensive.Unfortunately, light twin on a VMC training mission that crashes isn't really going to stump investigators. These have been pervasive since the invention of light twins and ME rating requirements for VMC demonstrations.
One of my college profs was killed as a student in Baron VMC training gone bad back in the early 2000's. Flat spin from 8000' into a corn field.
Once could argue in the past, there wasn't another option than live filght -- with simulators today it sure seems like we could find another way to handle this part of ME training and stop expecting low time pilots AND low time instructors to consistently put their lives in danger. Even experienced MEIs and DPEs have lost their lives as you're operating at the edge of the envelope where small mistakes by the student can override the best skills available.
One additional point- the flight school he was chief pilot at actually has a certified Sim so you could theoretically do ground Vmc training- although I don't think it would be loggable towards the rating.Unfortunately, light twin on a VMC training mission that crashes isn't really going to stump investigators. These have been pervasive since the invention of light twins and ME rating requirements for VMC demonstrations.
One of my college profs was killed as a student in Baron VMC training gone bad back in the early 2000's. Flat spin from 8000' into a corn field.
Once could argue in the past, there wasn't another option than live filght -- with simulators today it sure seems like we could find another way to handle this part of ME training and stop expecting low time pilots AND low time instructors to consistently put their lives in danger. Even experienced MEIs and DPEs have lost their lives as you're operating at the edge of the envelope where small mistakes by the student can override the best skills available.
Totally agree on using sims to train this. But would require every MEI/Flight School to have access to one, and revamping of the DPE checkride to involve both in flight and sim evaluation. I have a pretty extensive home sim setup and parameters that match my Seneca so I can train these events. But to make one "certified" would be prohibitively expensive.
Possible solution may be to require an endorsement prior to the checkride similar to spin training for CFIs.Totally agree on using sims to train this. But would require every MEI/Flight School to have access to one, and revamping of the DPE checkride to involve both in flight and sim evaluation. I have a pretty extensive home sim setup and parameters that match my Seneca so I can train these events. But to make one "certified" would be prohibitively expensive.
Except that the “guaranteed performance” part of the equation further emphasizes that we never fly near Vmc. If and when a loss of control occurs, either two pilots are so far out of the loop that recovery is highly unlikely, or a mechanical condition exists that changes the aerodynamics of the airplane such that loss of control is nowhere near Vmc.The irony is that about the only thing that does correlate is, wait for it... VMC training.
Agreed. But the lesson to be learned is simply that multiengine planes fly the same as singles when either both engines are operating or neither are. You have to react to cut the power and lower the nose the instant you run out of rudder. There was a crash of a Convair, IIRC at Kalamazoo, where the rudder rigging due to stretched cables caused VMC to be high enough that control couldn't be maintained at specified speeds. So, there needs to be enough training, just like stall recovery, to react correctly and fast, imo, but not an hour more.Except that the “guaranteed performance” part of the equation further emphasizes that we never fly near Vmc. If and when a loss of control occurs, either two pilots are so far out of the loop that recovery is highly unlikely, or a mechanical condition exists that changes the aerodynamics of the airplane such that loss of control is nowhere near Vmc.
i would still suggest, however, that a Citabria would be just as good a platform for the training as a multi engine airplane or simulator.Agreed. But the lesson to be learned is simply that multiengine planes fly the same as singles when either both engines are operating or neither are. You have to react to cut the power and lower the nose the instant you run out of rudder. There was a crash of a Convair, IIRC at Kalamazoo, where the rudder rigging due to stretched cables caused VMC to be high enough that control couldn't be maintained at specified speeds. So, there needs to be enough training, just like stall recovery, to react correctly and fast, imo, but not an hour more.
I'm wondering about the wisdom of "blocking" the rudder pedals by the CFI/DPE. I get it that would raise VMC allowing a bigger margin above the stall, but would you want somebody interfering with your controls while your plane approaches a stall with full asymmetric thrust?
And... what about the non-critical engine? Would CFIs start VMC training with a student by having them demonstrate the non-critical engine first? The logic being: less asymmetrical thrust would be safer for a beginner, but neglecting that the lower VMC would be closer to the stall?
And, why the push by the FAA and airlines for multiengine experience in the first place? There's little correlation between a Part 23 light twin which aspiring airline pilots can barely afford and a Part 25 transport category airplane. Once you're hired, you have to forget everything you thought you needed to know about multiengine operations and learn a whole new language rooted in guaranteed takeoff performance after the loss of an engine during takeoff. The irony is that about the only thing that does correlate is, wait for it... VMC training. You don't get that with multiengine hours in your logbook, you get it prepping for your multi flight test. So, once you have, say, 10 hours of multi training, there's nothing more to be gained except negative transfers with respect to operating multiengine airplanes in an air carrier environment.
Yes, that's the theory, but I don't want anybody restricting MY controls. S'pose the thing stalls for some unexpected reason at a higher airspeed than anticipated. S'pose the DPE/CFI also has control of the throttles because he's a control freak? I'd be the first to feel the loss of control and the last to be able to correct for it. Not for me, thanks. Please keep your boots and mitts to yourself, CFI.Ok, I need some help understanding this. Blocking the rudder, what are you doing, preventing movement of the rudder so the student thinks he's at the end of travel and reacts?
Yes, that's the theory, but I don't want anybody restricting MY controls. S'pose the thing stalls for some unexpected reason at a higher airspeed than anticipated. S'pose the DPE/CFI also has control of the throttles because he's a control freak? I'd be the first to feel the loss of control and the last to be able to correct for it. Not for me, thanks. Please keep your boots and mitts to yourself, CFI.
Ok, I need some help understanding this. Blocking the rudder, what are you doing, preventing movement of the rudder so the student thinks he's at the end of travel and reacts? Proper reaction for a spin, PARE Power to idle, ailerons neutral (that's a little counter intuitive, but essential), Rudder opposite dropped wing aggressively, elevator push to unstall wing. Preferably the last three simultaneously. Is this the right reaction? I had my first flight in a twin, first landing. But I had to stop to a later date as I'm getting a new to me plane I have to check out in.
I would rather NOT spin — that's why I want MY hands and feet on the controls and nobody else's.So you would rather spin the twin, versus completing the vmc demo more safely?
Just a question, do you have your multi or done multi training?I would rather NOT spin — that's why I want MY hands and feet on the controls and nobody else's.
Gosh yes, but not a lot of multi training. I have been through sim training at FSI for a Cessna 421 and owned a PA-30 for a while. I wrote my own 135 LOC and then took an FAA check ride in that Twinkie. An FAR 135 check ride in a PA-31P Navajo in the '70s and I flew a Turbo Commander for a couple years in the early '80s. My own ME flight test was in an Apache and my ATP was in a PA30 at Burnside-Ott at Opa-Locka nearly 50 years ago. Plenty of relevant experience, but not a lot giving ME dual, admittedly. Does that change my wish to not have to approach VMCa near a stall with my best foot tied behind my back? Nah.Just a question, do you have your multi or done multi training?
Gosh yes, but not a lot of multi training. I have been through sim training at FSI for a Cessna 421 and owned a PA-30 for a while. I wrote my own 135 LOC and then took an FAA check ride in that Twinkie. An FAR 135 check ride in a PA-31P Navajo in the '70s and I flew a Turbo Commander for a couple years in the early '80s. My own ME flight test was in an Apache and my ATP was in a PA30 at Burnside-Ott at Opa-Locka nearly 50 years ago. Plenty of relevant experience, but not a lot giving ME dual, admittedly. Does that change my wish to not have to approach VMCa near a stall with my best foot tied behind my back? Nah.
Probably the most succinct summary to date.This is all blood diamonds for the airlines; the tacitly complicit and entitled flying public actually, if you really want to get to the bottom of it.
But the horn should be several knots above the stall.Wow.
I was trying to remember how I was trained, especially since today marks the 1 year anniversary of my multi ride. IIRC the DA42 we flew a was very light (like 20% under max gross), fwd CG via ballast, and in the Vmc demo took it to the stall horn. I think we always got the horn few knots under redline.
How do you define VMC? loss of control? I agree intentionally going below that is unsafe. Going below the red mark on the ASI? Well, you might need to for an effective demo. The FAA says if you "need" to block the rudder because VMC is below stall, do it at least 20 Kts above the stall speed: https://www.faa.gov/sites/faa.gov/f...ion/airplane_handbook/14_afh_ch13.pdf#page=26My opinion is that a CFI/DPE using their foot to limit rudder travel during a VMC demo is safer than intentionally taking a twin below VMC while single engine.
How do you define VMC? loss of control? I agree intentionally going below that is unsafe. Going below the red mark on the ASI? Well, you might need to for an effective demo. The FAA says if you "need" to block the rudder because VMC is below stall, do it at least 20 Kts above the stall speed: https://www.faa.gov/sites/faa.gov/f...ion/airplane_handbook/14_afh_ch13.pdf#page=26
Slower than that, if the CFI is holding strong rudder pressure against the student's attempt to hold a heading as control is quickly (as assessed by the student who is the one on the controls) being lost and a stall is suddenly encountered — the CFI and asymmetrical thrust are both working toward a spin. What if the student reacts by just letting go?
I think the risk is still definitely greater than zero for rollover, stall, or spin. the fact that you’re above Vmc is irrelevant, as the rudder pedal blocking effectively increases Vmc. The loss of yaw control with a blocked rudder pedal is still a loss of directional control that can lead to rollover and worse. All you need is a ham-fisted student and/or an instructor who gets his foot wedged under the rudder pedal being blocked, and you’re easily into rollover/stall/spin territory.No offense, but I think you are missing the point of blocking the rudder. The purpose is to artificially increase VMC well over and above the airframe's VMC and stall speed by limiting the rudder authority. Honestly you could prevent any rudder authority towards the good engine and simulate this at cruise speed for what its worth. The student can see and feel what it is like to not be able to overcome the yaw from the good engine while still in a safe control range and speed. All you need to see is to recognize the loss of yaw control over the good engine, and practice the proper response. There is zero risk of a VMC rollover, stall, or spin, because you are well over the stall and VMC speed.
Of course. That's why you shouldn't do them in a normally aspirated twin at 8000'. Unless I overlooked it, nobody opining so far has mentioned that specifically as a possible root cause. Up there, actual VMC may be below stall and you may reap the whirlwind, so to speak.If doing a vmc demo, would not an increase in margin make for a safer demonstration.
Good point and I wondered as well. They were at 6000 AGL (6500 MSL). Not a particularly hot day but maybe conditions with stall above Vmc. But can't rule out one engine stumbling during power on stall recovery as cause as well. The student was a large man, the MEI was very slight so may have also been a situation where the student overpowered the MEI, however brief, to enter the spin condition. As I understand it, unless you extend gear and yaw back and forth significantly, the Beech won't recover from a spin. I do wonder about Juan's comment that power on the dead engine to counter the spin causing it to flatten. I get that in a single, but I would like to see data for that in a twin as its counterintuitive.Of course. That's why you shouldn't do them in a normally aspirated twin at 8000'. Unless I overlooked it, nobody opining so far has mentioned that specifically as a possible root cause. Up there, actual VMC may be below stall and you may reap the whirlwind, so to speak.
I wouldn't be adding any thrust at all until the airflow is back to normal and the wings are unstalled. I'd be pretty aware of any secondary stalls during the dive recovery, too, and wouldn't be adding power while pointed toward the ground. That's me. I'd try to avoid being a test pilot in the first place by holding my heading precisely on a point during the VMC demo. When my foot hit the iron stop I'd lower the nose and cut the throttle to 1/2, or more if needed. All the while, then, the plane would be slipping toward the dead engine, away from the ball indicator, not that I'd notice because I'd be looking outside. If the plane stalled first, I'd predict it would theoretically go "over the top", like all the singles I've stalled. But, since the engine is accelerating airflow over the wing there, I doubt it would stall before losing rudder authority which would trigger my recovery. So, I will postulate that a yaw string (or strings) mounted at the right place(s) might be a safety feature during a VMC demo. You'd want to keep the string showing a slip and not a skid until your foot hits the stop. In a skid, you'd go "under the bottom", with the good engine pulling you into the spin as opposed to away from a spin.Good point and I wondered as well. They were at 6000 AGL (6500 MSL). Not a particularly hot day but maybe conditions with stall above Vmc. But can't rule out one engine stumbling during power on stall recovery as cause as well. The student was a large man, the MEI was very slight so may have also been a situation where the student overpowered the MEI, however brief, to enter the spin condition. As I understand it, unless you extend gear and yaw back and forth significantly, the Beech won't recover from a spin. I do wonder about Juan's comment that power on the dead engine to counter the spin causing it to flatten. I get that in a single, but I would like to see data for that in a twin as its counterintuitive.