We'll never know what his power setting was and we don't know what his weight was. I've never flown a Queen Air (and King Airs don't count) but I have had an actual engine failure immediately after takeoff in a Cessna 411 which is a pretty comparable airplane. It took nearly full power on the remaining engine just to maintain altitude with the one caged. Due to the audio quality, it's impossible to say what the power was on the his good engine. We may have to agree to disagree, but it's obvious that he let it get too slow and ended up spinning it in.
Don't take this personally - I'm not picking on you. I just feel that we as a community do a terrible disservice to multi engine students in the way we talk about and train for VMC demos.
In a VMC accident, the good engine at full power will overcome any control inputs the pilot may make. This causes the wing of the good engine to lift/
climb and the airplane literally rolls over onto its back. Contrast that with an uncoordinated stall where one wing stalls before the other and
drops. That is what I believe you are seeing in that video. The left wing dropping vice the right wing climbing over the top. It may sound like semantics - The end result in a twin is usually the same - fatal. But the recovery is a little different. Which is why I think it is important to differentiate.
VMC demos that we train for and perform on check rides are really not representative of what actually happens in a VMC accident. Many MEIs train students to wait for the loss of directional control and then the student responds with pulling the power back and lowering the nose to regain blue line.
That sounds great.....but it won't work in a real life VMC accident. You will not have that time. You have to be disciplined to pull the power and set it back down as soon as you have any loss of power. The good news is that in the majority of GA twins, your actual exposure to the VMC danger zone is really quite small (a few seconds at most if you fly a conservative departure profile). A VMC accident if it happens, is going to occur while still over the runway between 0 and about 25' AGL. You can't wait for the loss of directional control - it will happen too fast. It won't be anything like a VMC demo.
You are far more likely to lose control and die if you get too slow with one caged - but unlike SEL stall recoveries, you can't let it go all the way to the stall with asymetric thrust and expect to be able to recover - you have to initiate the recovery at the first indication of pending stall (buffet or ideally stall horn). Which IS what we are supposed to do per the PTS for the VMC Demo. My beef is that we should be treating it as a stall avoidance-recovery maneuver and not trying to pretend it is simulating loss of VMC by either name or blocking the rudder.
Anyway, back to your regular programming.
