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#1
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Chris,
It IS a myth. Stall is related to critical angle of attack and has absolutely nothing to do with airspeed. The quoted stall speeds are based on very important assumptions of configuration and power setting. Typically when people talk about the stall speed of an airplane, they mean V0, which is clean, flaps up, power off. 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. Shawn "Chris Hoffmann" wrote in message ... The first thing that jumped out at me from your report is this: Another myth cited in the AOPA study is "watch your airspeed, or you're going to stall this airplane!" Pardon me, but if your airspeed gets below stall speed, you ARE going to stall. Further, if your airspeed is below the usual 1.3 Vso safety cushion, you are getting to the point where all it takes is a turn too steep, or a bit of tailwind, or a yank back on the yoke, and you are LIKELY to stall. This is not "myth". On the other hand, this: "Just don't let airspeed get below a safe value and stalls are not a problem." is not an axiom to fly by. Students *should* know/be taught that a stall can occur at any speed, any attitude, of course. But I see nothing wrong with training students to keep their airspeed where it's supposed to be in the pattern and on approach, which, I believe, is the context from which those two quoted remarks were taken. -- Chris Hoffmann Student Pilot @ UES 30 hours |
#2
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What's more, it is possible, though difficult, to fly slower than Vs and NOT
stall. Trivially, when the plane is standing on the ground, it is not stalled. If you botch a loop you can easily end up inverted at the top of a loop with almost zero airspeed, and not be stalled. Of course in normal flight it's very hard to lose speed without stalling, but if you pull vertical you can do it. It's true that if you're below Vs and not stalled, you won't have much lift either and you'll be falling. But the airflow is still attached to the wing, and hence you are not stalled. John "ShawnD2112" wrote in message ... Chris, It IS a myth. Stall is related to critical angle of attack and has absolutely nothing to do with airspeed. The quoted stall speeds are based on very important assumptions of configuration and power setting. Typically when people talk about the stall speed of an airplane, they mean V0, which is clean, flaps up, power off. 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. Shawn "Chris Hoffmann" wrote in message ... The first thing that jumped out at me from your report is this: Another myth cited in the AOPA study is "watch your airspeed, or you're going to stall this airplane!" Pardon me, but if your airspeed gets below stall speed, you ARE going to stall. Further, if your airspeed is below the usual 1.3 Vso safety cushion, you are getting to the point where all it takes is a turn too steep, or a bit of tailwind, or a yank back on the yoke, and you are LIKELY to stall. This is not "myth". On the other hand, this: "Just don't let airspeed get below a safe value and stalls are not a problem." is not an axiom to fly by. Students *should* know/be taught that a stall can occur at any speed, any attitude, of course. But I see nothing wrong with training students to keep their airspeed where it's supposed to be in the pattern and on approach, which, I believe, is the context from which those two quoted remarks were taken. -- Chris Hoffmann Student Pilot @ UES 30 hours |
#3
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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 Hoffmann Student Pilot @ UES 30 hours |
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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 |
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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 |
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