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I decided to move flight testing stuff here for my LSA.
On Friday and Saturday, I did some more experimenting with spins, but before doing so, I did take the airplane all the way to 140 mph. There was absolutely no hint of a problem at that speed, but I was at a smooth altitude. I had the power pulled back to idle as I wanted to be sure I did not overspeed the engine. The MGL recorded a descent rate of 4,640 fpm and I was in a steep dive.
I then worked with spins from level flight as well as spins from approach and departure attitudes. At this point I am limiting myself to one complete turn, but I wanted to share my findings thus far.
From level flight, with the ball centered, my LSA tries to just nibble at the stall, at first, but if I use both hands on the stick and hold it for a bit it will eventually stall and drop a wing. Which wing is not predictable, however. Probably I have the ball out of center ever so slightly, causing the wing drop. Spin recovery is simple, if started right away, and can be done with little loss of altitude. On the other hand, if the stick is held back and centered, the airplane will finally stall, quickly swap ends and go very nose down. If that is allowed to progress, and the rudder is kept centered with the stick back, the spin converts to a tight, nose down spiral in my airplane. At that point I have quickly released back pressure, rolled the wings parallel to the horizon and then applied sufficient back pressure to recover to level flight at a reasonable G load. It is important that I be sure to not pull significant G's and roll out at the same time as that would put a twisting moment on the wing greatly reducing its ability to handle the G load. Maximum airspeed with a relatively gentle recovery was less than 120 mph.
Again, from level flight, I did intentional spins both ways and recovered after one turn. Recovery was conventional with airspeed not exceeding 105 mph in the recovery. Again, I was careful to stop the spin completely and not convert to a spiral while recovering for the reason mentioned above. I am now confident that a one turn spin can be recovered by just application of opposite rudder and release of back pressure (it would probably recover just by releasing the controls, but I did not try that). I did not pull a lot of G's as I was ok on airspeed. The loss of altitude with the one turn spins was about 500 feet. However, I could have safely recovered to level a bit quicker by pulling more G's.
I explored approach stall/spins next and I found no real surprises given what I already knew. Even in a simulated steep turn to final with the ball centered. the airplane is quick to recover without entering a spin just by easing off back pressure on the stick at the first sign of a stall. On the other hand, a stall in a skidding turn does result in a quick roll to inverted. If that happened at a low altitude, recovery in time would be doubtful. However, even in a relatively steep turn, the nose is high enough that the danger should be obvious to any pilot. Stalls out of turning slips are quickly recoverable just by reducing back pressure, but if back pressure is held, the airplane does roll over the top and will go inverted.
I next tried skidding left turn departure stalls at full power. The nose was so high at the stall that any pilot should recognize the danger, but the airplane does roll inverted quickly if one is so ham handed as to do this. I experimented with placing my feet flat on the floor and stalling out of a full power left turn, as well with essentially the same result, but just a little slower. I saw no reason to do this to the right as the left turn is the more critical.
My conclusion at this point is that the LSA is a very safe airplane for any careful pilot. It is not like a Cessna or Piper with wash-out in the wings, though. One result is that there is less buffeting prior to the full stall than with those airplanes, but the LSA wing hangs on for an incredibly long time before stalling. Once stalled, though, the LSA will spin easily but recovery is very conventional. I have a hard time seeing how anyone could stall and spin my airplane accidentally because it gives so many cues that it is outside the normal flight envelope before departing. That said, people do stall and spin Cessnas and Pipers accidently, so I'm sure it can be done.
I would emphasize that these results are applicable to my airplane only, and these tests were done with the back seat and the baggage compartment empty. I'll work on this some more later with weight in the back seat and baggage compartment. Also, as Mark so rightly suggests, if one is not very experienced with spins, this could be dangerous as inappropriate recovery could exceed design limits and break the airplane with disastrous results. Right now, I think I have done everything I think I need to do with spins for the test period, and I know my airplane is safe in terms of handling characteristics. BTW, all of this was done at high altitude (over 6,000 feet) and over very uninhabited areas of farm land.
I would be interested to know if what I have experienced with the LSA is similar in the Patrol, the LSA's big brother.
Bob
On Friday and Saturday, I did some more experimenting with spins, but before doing so, I did take the airplane all the way to 140 mph. There was absolutely no hint of a problem at that speed, but I was at a smooth altitude. I had the power pulled back to idle as I wanted to be sure I did not overspeed the engine. The MGL recorded a descent rate of 4,640 fpm and I was in a steep dive.
I then worked with spins from level flight as well as spins from approach and departure attitudes. At this point I am limiting myself to one complete turn, but I wanted to share my findings thus far.
From level flight, with the ball centered, my LSA tries to just nibble at the stall, at first, but if I use both hands on the stick and hold it for a bit it will eventually stall and drop a wing. Which wing is not predictable, however. Probably I have the ball out of center ever so slightly, causing the wing drop. Spin recovery is simple, if started right away, and can be done with little loss of altitude. On the other hand, if the stick is held back and centered, the airplane will finally stall, quickly swap ends and go very nose down. If that is allowed to progress, and the rudder is kept centered with the stick back, the spin converts to a tight, nose down spiral in my airplane. At that point I have quickly released back pressure, rolled the wings parallel to the horizon and then applied sufficient back pressure to recover to level flight at a reasonable G load. It is important that I be sure to not pull significant G's and roll out at the same time as that would put a twisting moment on the wing greatly reducing its ability to handle the G load. Maximum airspeed with a relatively gentle recovery was less than 120 mph.
Again, from level flight, I did intentional spins both ways and recovered after one turn. Recovery was conventional with airspeed not exceeding 105 mph in the recovery. Again, I was careful to stop the spin completely and not convert to a spiral while recovering for the reason mentioned above. I am now confident that a one turn spin can be recovered by just application of opposite rudder and release of back pressure (it would probably recover just by releasing the controls, but I did not try that). I did not pull a lot of G's as I was ok on airspeed. The loss of altitude with the one turn spins was about 500 feet. However, I could have safely recovered to level a bit quicker by pulling more G's.
I explored approach stall/spins next and I found no real surprises given what I already knew. Even in a simulated steep turn to final with the ball centered. the airplane is quick to recover without entering a spin just by easing off back pressure on the stick at the first sign of a stall. On the other hand, a stall in a skidding turn does result in a quick roll to inverted. If that happened at a low altitude, recovery in time would be doubtful. However, even in a relatively steep turn, the nose is high enough that the danger should be obvious to any pilot. Stalls out of turning slips are quickly recoverable just by reducing back pressure, but if back pressure is held, the airplane does roll over the top and will go inverted.
I next tried skidding left turn departure stalls at full power. The nose was so high at the stall that any pilot should recognize the danger, but the airplane does roll inverted quickly if one is so ham handed as to do this. I experimented with placing my feet flat on the floor and stalling out of a full power left turn, as well with essentially the same result, but just a little slower. I saw no reason to do this to the right as the left turn is the more critical.
My conclusion at this point is that the LSA is a very safe airplane for any careful pilot. It is not like a Cessna or Piper with wash-out in the wings, though. One result is that there is less buffeting prior to the full stall than with those airplanes, but the LSA wing hangs on for an incredibly long time before stalling. Once stalled, though, the LSA will spin easily but recovery is very conventional. I have a hard time seeing how anyone could stall and spin my airplane accidentally because it gives so many cues that it is outside the normal flight envelope before departing. That said, people do stall and spin Cessnas and Pipers accidently, so I'm sure it can be done.
I would emphasize that these results are applicable to my airplane only, and these tests were done with the back seat and the baggage compartment empty. I'll work on this some more later with weight in the back seat and baggage compartment. Also, as Mark so rightly suggests, if one is not very experienced with spins, this could be dangerous as inappropriate recovery could exceed design limits and break the airplane with disastrous results. Right now, I think I have done everything I think I need to do with spins for the test period, and I know my airplane is safe in terms of handling characteristics. BTW, all of this was done at high altitude (over 6,000 feet) and over very uninhabited areas of farm land.
I would be interested to know if what I have experienced with the LSA is similar in the Patrol, the LSA's big brother.
Bob
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