fastj22 wrote:radfordc wrote:
My next flight, I'm planning on getting to a safe altitude and practice emergency turn backs using the LRI. Find out where the demons are and what is the minimum altitude I can safely do it.
fastj22 wrote:My next flight, I'm planning on getting to a safe altitude and practice emergency turn backs using the LRI. Find out where the demons are and what is the minimum altitude I can safely do it.
MichaelFarley56 wrote:It's actually interesting you say that...it jogs a memory from back in the day. Does anyone remember "Wide World Of Flying" videos? I remember Barry Schiff did a bunch of videos, and one episode dealt with this exact same thing.
In the video, Barry's recommendation was to take off, climb out normally, and once at a safe altitude perform a test to determine how much altitude you would loose if you had an engine failure on takeoff. The test was to establish yourself in a climb, pull the engine to idle, then while pitching down to maintain airspeed wait 3 seconds (for the reaction time), then use an approximate 45 degree bank turn to complete one 360 degree circle, execute a simulated "flare", and see how much altitude was lost. This would give you a rough idea of how much altitude you'd need to even attempt the turn back to the runway since, if you do this for real, you actually turn more than just 180 degrees. He went on to describe how a 45 degree bank turn was about the best compromise between turning radius, rate of turn, and increase in stall speed.
I haven't done this test but at some point I'd like to, just to see what the results are. Something to try this summer maybe.
vigilant104 wrote:In addition to the "can I get turned back around without stalling" question, there's also the issue of whether we would have enough remaining altitude to make the runway once the turn is complete. Like many, on warmer days I keep the nose down and the airspeed up on climbout in order to keep CHT's in check. That can result in significant ground distance covered before I reach 1000' AGL. Heck, if we climb at 500 fpm and 90 MPH, that puts us at a ground distance of over 9,000 feet from the takeoff point when we reach 700' AGL, so at the advertised 11:1 glide ratio we can only glide 7,700' over the ground: Quite apart from the altitude lost in the turn and the chance for an accelerated stall in the turn, under this scenario we wouldn't even make it back to the takeoff point even if we were already pointed in the right direction when the engine quit.
radfordc wrote:Mark, you're calculations are for a no wind condition, right? Climbing into a headwind will improve your ability to make it back to a runway behind you.
MichaelFarley56 wrote:Very cool Charlie! That's an impressive number. What speed do you use as best glide speed?
vigilant104 wrote: The point I came away with is that increasing the climb >angle< on takeoff (closer to Vx rather than Vy) may give me more options if things go wrong within the first minute of flight.
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