acronym for Vmc factors
- Thread starter FOD
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tgrayson
New Member
<<heavier aircraft is more stable and has more inertia; >>
You hear this a lot and it's wrong on several fronts:
1) Inertia will potentially only affect the *rate* at which control is lost, but will not determine *whether* it's lost.
2) Even so, an aircraft rotates around the CG, therefore the weight alone will not affect the nature of rotation around this point.
You hear this a lot and it's wrong on several fronts:
1) Inertia will potentially only affect the *rate* at which control is lost, but will not determine *whether* it's lost.
2) Even so, an aircraft rotates around the CG, therefore the weight alone will not affect the nature of rotation around this point.
E6BAV8R
Well-Known Member
Exactly what I used as well.
wrxpilot
New Member
That's what I always thought as well. I subscribe to the heavier a/c having a higher Vmc (because of AOA/P-factor) camp...
tgrayson
New Member
Sorry, you saw my post out of context. Greater weight absolutely reduces Vmc; it was only the explanation of "why" that I was taking issue with.
Fly_Unity
Well-Known Member
I know this thread is old, but actually FAR 23.149 did not say that "VMC must be determined with the most unfavorable weight" back when Piper Seminole was certified, All V speeds are based on gross weight unless otherwise specified in the POH, and the POH for the Seminole doesnt say which weight VMC was calculated on.
The FAA has revised FAR 23.149 saying that it must be based on the most unfavorable weight AFTER Piper determined VMC speed for the Seminole, so its based off of max weight of 3800 I believe.
meritflyer
Well-Known Member
Interesting.
Although, if this is true it still is an advantage since the Vmc value would've been greater if determined at 2800 vs. 3800.
tgrayson
New Member
Not quite true. The way it used to read was
"The maximum sea level takeoff weight or any lesser weight necessary to show VMC"
Part 25 still reads this way. The thing is, most often it was necessary to use a lighter weight in order to show a Vmc, because at max gross, the aircraft will usually stall first.
Regardless of the regulation, the normal practice for flight testing is and was to use the lightest weight. I have little faith that anything in the POH is accurate in regards to how the test was actually performed. The writers probably just copied the regulation.
Fly_Unity
Well-Known Member
Interesting, I read through the whole 23.149 CAR 3 (early 23.149), I could not find where it said lesser weight necessary to show VMC. Even the airplane flying handbook says that it didnt regulate what weight it was to be determined at (12-28)
2nd of all, even IF it said that, I believe that reg was a way to test VMC, not base their determination off it. The Seminole would VMC at sea level before it would stall at gross weight, I believe the test pilots tested VMC at a higher altitude, at a light weight, then converted it to a sea level and to gross weight, I think you may be getting confused on the difference what weight they tested VMC at, and what weight VMC is calculated to be, because its obvious that test pilots could not test what VMC speed is at at gross weight at 10,000 feet.
3rd, why would Piper calculate VMC at a light weight, and not even put it in the POH, when CAR 3 didnt even mention weight? that would make their numbers look bad.
My MEI Examiner (June Bonesteel for you PHX guys) was big into this, and actually busted another student for telling her that the Seminole was tested at a light weight...(not the only reason he busted btw) which is the only reason I studied up on it.
Im not sure what part 25 says, and what it has to do with the testing process
tgrayson
New Member
Fly_Unity said:
I copied the above from Part 23, prior, to, oh, 1996 or something like that. I haven't checked Car 3. I'll do that when I get home.
Anyway, are you saying that the Seminole is a Car 3 airplane? It's newer than the Seneca and the Seneca was a Part 23 aircraft.
<<2nd of all, even IF it said that, the Seminole would VMC at sea level before it would stall at gross weight, I believe the test pilots tested VMC at a higher altitude, at a light weight, then converted it to a sea level and to gross weight, >>
Why do you think they would do that?
<<I think you may be getting confused on the difference what weight they tested VMC at, and what weight VMC is caculated to be, because its obvoius that test pilots could not test what VMC speed is at at gross weight at 10,000 feet.>>
The flight testing literature is clear that they test Vmc at light weights because Vmc is higher, not because they need a light weight to climb to altitude.
<<3rd, why would Piper test it at a light weight, and not even put it in the POH, when CAR 3 didnt even mention weight? that would make their numbers look bad.>>
Not if all airplanes were tested in the same manner. And that's assuming that the Seminole is a Car 3 aircraft.
<<My MEI Examiner (June Bonesteel for you PHX guys) was big into this, and actually busted another student for telling her that the seminole was tested at a light weight...(not the only reason he busted btw) which is the only reason I studied up on it.>>
Not really a data point.
<<Im not sure what part 25 says, and what it has to do with the testing process>>
Most of you will be flying Part 25 airplanes in the future.
Fly_Unity
Well-Known Member
I have looked for my old copy of 23.149 (pre 1980) I had and couldnt find it, nevertheless Airplane flying handbook says that the the early FAR 23, AND CAR 3 didnt specify weight for VMC, and that all V-speeds are based on gross weights unless otherwise specified in the POH.
Who knows though what piper actually did though. So your saying that they just did it because it was a common practice?
<<<The flight testing literature is clear that they test Vmc at light weights because Vmc is higher, not because they need a light weight to climb to altitude>>>
I agree that they tested it lighter, not because of performance, but because it will NOT VMC at gross weight at their altitude. The question isnt what they tested it at, but what weight, was the caculated 55 knot VMC speed based on.
Who knows though what piper actually did though. So your saying that they just did it because it was a common practice?
<<<The flight testing literature is clear that they test Vmc at light weights because Vmc is higher, not because they need a light weight to climb to altitude>>>
I agree that they tested it lighter, not because of performance, but because it will NOT VMC at gross weight at their altitude. The question isnt what they tested it at, but what weight, was the caculated 55 knot VMC speed based on.
tgrayson
New Member
You're right, we have no way to for sure. But CAR 3 went away long before 1980. My guess is that Part 23 kicked in sometime in the 60's. The section I quoted was until 1996, but I don't know if there were any other versions prior to that. I have a copy of CAR 3 at home, so I'll look just for grins, but I don't think it applies to this airplane.
Even if we could establish the laws enforce during certification, the FAA provides a lot of liberty to manufacturers in how they meet various requirements, so there are no guarantees.
I'm not sure what "it" you're talking about, but if you mean "light weight", yes, that's been the accepted practice for many years. Always? Well, I obviously can't say that. As you know, the further back you go, the more cavalier they were about safety.
You are correct in that they do extrapolate back to sea level, and there are graphical techniques shown in the flight testing book about how they do that. I don't recall seeing any weight adjustments, though. And it doesn't make sense that they would want to do that. The V speeds that are based on max gross weight are done so to be conservative. A Vmc at max gross would not be conservative.
tgrayson
New Member
Fly_Unity is arguing that aircraft certified before 23.149 was written that way might have been tested a max gross weight.
Blip16
Well-Known Member
doh, i read the whole thing too, i was just not fully awake yet.
anyway, for sure the seminole was tested under 23.149 becauase it was certified March 10, 1978 according to the data sheet for it
tgrayson
New Member
That was my guess. However, 23.149 did change in 1996. And at one time, it was merely copied from the former CAR 3 regulations, so the regulation has evolved. Tough to say how it read in 1978.
Blip16
Well-Known Member
i was looking at the data sheet for the PA-30 and PA-39 twin commanche's and the PA-30 has a higher Vmc speed (it was under CAR 3 regulations) BUT it also has a critical engine, whereas the PA-39 looks like it has counter-rotating props. The PA-39 was certified under Part 23(i think, but i might have misread)
edit: nevermind, looks like they were all certified under CAR 3, how does that work when the FAR's were in effect in 1965 IIRC?
tgrayson
New Member
CAR 3:
§ 3.111 Minimum control speed (Vmc). (a)
A minimum speed shall be determined under the
conditions specified below, such that when any
one engine is suddenly made inoperative at that
speed, it shall be possible to recover control of
the airplane, with the one engine still inoperative,
and to maintain it in straight flight at that speed,
either with zero yaw or, at the option of the
applicant, with a bank not in excess of 5 degrees.
Such speed shall not exceed 1.3 Vs1, with:
(1) Take-off or maximum available power on
all engines,
(2) Rearmost center of gravity,
(3) Flaps in take-off position,
(4) Landing gear retracted.
(b) In demonstrating this minimum speed,
the rudder force required to maintain it shall not
exceed forces specified in § 3.106, nor shall it be
necessary to throttle the remaining engines.
During recovery the airplane shall not assume
any dangerous attitude, nor shall it require
exceptional skill, strength, or alertness on the part
of the pilot to prevent a change of heading in
excess of 20 degrees before recovery is complete.
§ 3.111 Minimum control speed (Vmc). (a)
A minimum speed shall be determined under the
conditions specified below, such that when any
one engine is suddenly made inoperative at that
speed, it shall be possible to recover control of
the airplane, with the one engine still inoperative,
and to maintain it in straight flight at that speed,
either with zero yaw or, at the option of the
applicant, with a bank not in excess of 5 degrees.
Such speed shall not exceed 1.3 Vs1, with:
(1) Take-off or maximum available power on
all engines,
(2) Rearmost center of gravity,
(3) Flaps in take-off position,
(4) Landing gear retracted.
(b) In demonstrating this minimum speed,
the rudder force required to maintain it shall not
exceed forces specified in § 3.106, nor shall it be
necessary to throttle the remaining engines.
During recovery the airplane shall not assume
any dangerous attitude, nor shall it require
exceptional skill, strength, or alertness on the part
of the pilot to prevent a change of heading in
excess of 20 degrees before recovery is complete.
caliginousface
Frank N. Beans
So what else is the answer besides the added weight contributing to the HCL?
Is it just more force being applied to the point of rotation?