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#11
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"Wayne" writes:
Since the airspeed indicator (pitot tube) is pointed the same as the wing, then "indicated airspeed" does mean something. For instance, if you were to put the wing at a 90 degree AOA to the relative wind, then the airspeed would also read nothing or almost nothing correct? So I agree that airspeed doesn't matter, but indicated airspeed does. His point was that the stall speeds marked on the ASI (Vs and Vso) are applicable only at 1 G, maximum gross weight, and the appropriate flap/gear configuration. That's why an angle-of-attack indicator would be nice. If you're doing anything that increases the G-load on the plane, like turning or pulling up from a dive (i.e. anything that presses your behind into the seat), the stall speeds will be higher; if the plane is loaded below maximum gross weight, the stall speeds will be lower; and so on. It's a bit of an overstatement to say that stall speeds don't matter, but you do have to take them with a big grain of salt. Let's say that you have just recovered from a stall or spin and are now in a dive heading quickly towards the ground. If you pull up hard, you might stall the plane at close to double the Vs marked on the ASI. All the best, David |
#12
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I don't dispute that there's more to stalls than airspeed. I just
think you're all putting too fine a point on this. I agree with you. For every constant g-loading, there is an airspeed which is safe to fly. |
#13
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"David Megginson" wrote in message
... His point was that the stall speeds marked on the ASI (Vs and Vso) are applicable only at 1 G, maximum gross weight, and the appropriate flap/gear configuration. That's why an angle-of-attack indicator would be nice. Well, in a way, the airspeed indicator IS an angle-of-attack indicator. -- Chris Hoffmann Student Pilot @ UES 30 hours |
#14
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"Chris Hoffmann" writes:
His point was that the stall speeds marked on the ASI (Vs and Vso) are applicable only at 1 G, maximum gross weight, and the appropriate flap/gear configuration. That's why an angle-of-attack indicator would be nice. Well, in a way, the airspeed indicator IS an angle-of-attack indicator. It's related to angle-of-attack, but note all the cautions in the rest of this thread. It's definitely not the same thing (that's why you see AOA indicators in some military and aerobatic aircraft). All the best, David |
#15
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"ShawnD2112" wrote in message
You can stall the airplane at Vne if you pull hard enough. There are enough warbird accidents where the pilot stalled at the bottom of the loop and flopped flat into the ground to prove the theory. But not likely at Vne. That is likely to massively overstress the airframe. moo |
#16
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"Roger Long" om wrote in message . ..
I think the whole answer would be: Keep your airspeed up (1.3 Vso) , bank angle below 30 degrees, and do everything deliberately and gracefully. Most trainers will tolerate a lot of off center ball if you do this but it's still important to stay coordinated due to wind gusts and other unexpected factors. 1.3 Vso is plenty. Many folks "add a bit just to be safe," and end up with a high approach speed that can end up taking them off the end of the runway, where they get hurt. Wasn't getting hurt what a higher approach speed was supposed to avoid? Or they leave lots of rubber and smoke behind. Or they bounce the nosegear and bust the airplane. Or wheelbarrow off into the rhubarb. Adding airspeed will often cause more damage and injury than it prevents. Nail that airspeed and hold it, using power to adjust glidepath, remembering to raise the nose as power is added and vice-versa, or airspeed will fluctuate. We spend considerable time with students exploring aircraft behavior in slow flight, stalls and spins. They need to understand that the airplane will do exactly as they ask, and that they need to pay attention in the circuit, not start adding airspeed to make up for inattention or incompetence. Some of my instructors were former bush/jungle pilots who were proficient at 1.1 Vso approaches, using plenty of power, to get into really short strips. With power on, the stall drops markedly and safe approaches can be made in experienced hands. Flare was made with power instead of attitude. Note the "experienced hands." Don't try this at home. Dan |
#17
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Turns are where the problems usually arise. I was taught 1.3 through the
turn to final then aiming for 1.1 to 1.2, depending on wind conditions, as you come across the threshold. I've had good luck doing the power thing with 40 degree flaps, arresting the descent more with a burp of power than flare. Of course, if you got to that point and discovered that your engine was just windmilling on you, you'd probably make a spectacular bounce. I always check at runup that the engine keeps running at idle with the carb heat on. -- Roger Long |
#18
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"Chris Hoffmann" wrote in message ...
John - Just to be clear, I'm only referring to approaches. I thought that's what that part of the original post was about - a student learning to land. Sean- How can you say that stalls are unrelated to airspeed, when airspeed is related to your angle of attack? (and John, at the top of a loop at zero airspeed, where is the relative wind coming from, or at least about to come from? Good thing a cliff doesn't magically appear under you at that point.) You aren't (hopefully) coming in to land at Vne. Yes, you can stall an airplane at any speed, but the point is you don't want to let your airspeed drop too low on approach. Period. Maybe I'm seeing this as two seperate training issues, whereas others are seeing it as one and the same? Chris, you have a good point. Yes, the stall speed of your plane changes with a variety of factors but we're talking about a known situation, landing. Not a 3 G turn or floating a loop over the top at ..5 Gs. While a J-3 cub is easily landed without reference to airspeed, as you go up in aircraft watching *SPEED* on final becomes more important, unless you are likey enough to own an AOA gauge. In fact, in heavy iron flying this *SPEED* is computed for that exact flight, so each approach may have a different approach speed. For a 172, things like weight variations aren't as critical as in a 747 so we provide students with a target number for appoach. Of course, if you choose to pull a 3 G turn or over gross the plane, that number will not work. I think people are just poking you here to see how you will react. As a Mooney owner I can tell you speed is critical. The Mooney Aircraft & Pilots Association recommends no more than 1.2 Vso for normal landing since being 10 knots fast sucks up about 1500 feet extra runway. Yes, weight or G loading will effect this (density altitude and humidity will effect the TAS of the stall too, but we're just interested in IAS here). Bush pilots often stall there planes before coming down to know what indicated *SPEED* their plane will stall at with the current weight. This allows them to land very, very short. -Robert, CFI |
#19
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Roger Long wrote: I've had good luck doing the power thing with 40 degree flaps, arresting the descent more with a burp of power than flare. Of course, if you got to that point and discovered that your engine was just windmilling on you, you'd probably make a spectacular bounce. Never happen with my Maule. Anything below 1.3 with full flaps requires back pressure on the yoke and some power. There's no way you'll fly final at, say, 55 mph with a windmilling engine and not know it. George Patterson A friend will help you move. A really good friend will help you move the body. |
#20
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Come to think of it, that may be true of the 172 also. I usually fly short
final at 1500 RPM and go to idle crossing the numbers. I think I often put in a bit of power with the last notch of flaps to set a good descent rate. At this point, I'm not paying much attention to numbers but flying by the windshield. I do keep an eye on the airspeed however. If the engine quit, it would probably be pretty evident by the far end of the runway disappearing behind the sun visors and a dramatic descent rate if you kept the airspeed up. That would still be pretty exciting if you weren't paying attention. Maybe that's why the lawyers made Cessna reduce maximum flaps to 30 degrees. Back when I was still learning to land, the steeper my descent, the better my touchdowns. I gather the reverse is true for most people. -- Roger Long |
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