whoever modelled the La7....

[Hristo]

Originally posted by Dowding (Work)


You what? That's utter BS. Last tour the D9 ranked 7th in terms of number of kills attributed to it, ahead of the 109 G10, F6F, P-38, both the 190 A5 and A8, any of the F4Us, or Jugs or Yaks.

It didn't get that number of kills, sat in the hangar. Rare? lol!

7th ? Quite average for one of 3 best fighters of the war.

Originally posted by Dowding (Work)


BTW, Spit9 and P-51D are both ahead of La-7 in number of kills... what does that tell you?

That popular planes from movies are popular planes in game. I'd be more interested in their K/D, compared to Lame-7.

As for perking, yes, I have nothing against perking all three : Lame-7, P51D and D-9. They all have their earlier varients to be flown freely.

On the other hand, who cares .

[Spritle]

funkedup,

Earlier in our discussion you said this:

I am considering a steady state case where RPM is constant, therefore angular acceleration equals zero. In that case the reaction torque on the airframe is equal to power absorbed by the prop divided by the angular velocity of the prop./

While this is a valid statement I don’t think this is the regime of flight that anyone had in mind.  Most of the people that are complaining about the La-7 are talking about torque with respect to rapid turning during scissors type maneuvers.  While engine RPM should remain fairly constant shouldn't there be a force imparted on the airframe by the spinning prop as it is rotated about axis of the turn?  Not sure if that makes since.  


Hooligan said this:

  There are no piper cherokee's in AH to compare the La-7 to. And the controls in AH aren't really connected via rods and cables to alierons etc... so you don't "feel" the aircraft the way you do in real life.

I would counter with this.  You also don’t feel black outs or red outs while sitting in your chair yet they are modeled.  You also don’t feel that .50 cal ripping through your chest yet it is modeled.  You also don’t feel an impending stall yet there is a stall horn blaring away.  Torque should and can be modeled.  

Also I’m not sure if this is modeled, but shouldn’t some aircraft turn better in one direction than the other?  

Mitsu mentioned the possibility of the drag being off for the La-7.  I do know that it seems to glide better than any other aircraft in the game.  And it will hang on to 300mph in a glide without loosing much altitude either.

Spritle

edit: can't get two quotes to work

[dtango]

Spritle / Mitsu: ====================
With all due respect guys, if you have an issue with the flight model the burden of proof is for you to come up with the quantitative technical anaylsis to demonstrate the issue.  Any serious analysis of flight models needs to start here.  Without it we just perpetuate lots of unsubstantiated myths about AH which does nothing but erode confidence in the FM's for those who don't know any better.

How do you know the La-7 form drag is off?  How do you know that there is something wrong with the glide characteristics of the La-7?  If they are off then please provide the aerodynamic analysis that shows they are.

Others with the background in aerodynamics and flight models certainly have analyzed AH over the years and haven't lost confidence in the FM's.  I can say from my personal expsosure to analyzing EM characteristics of AH a/c that my confidence level as to how HTC models their a/c has greatly increased.  They are pretty thorough and from what I can tell are pretty meticulous and careful about how they design the FM's.


Gripen: =================
Thanks for the NACA link.  The data however is for measuring buffeting tail loads and unfortunately not useful for EM analysis.

Tango, XO
412th FS Braunco Mustangs

[funkedup]

Spritle I'm glad you figured it out!  When I was teaching I used to get the same exact questions about radians.

shouldn't there be a force imparted on the airframe by the spinning prop as it is rotated about axis of the turn? Not sure if that makes since.

Yes you are correct.  Angular acceleration is a vector quantity.  So you can get a torque reaction in more than one way.
One way is as you mentioned before, by changing the magnitude of the angular velocity.  The reaction is equal to the moment of inertia times the angular acceleration, like you stated before.

The other way is by changing the orientation of the angular velocity vector, i.e. pitching or yawing motions.  For example, let's picture a single engine aircraft with "normal" (clockwise as viewed by the pilot) prop rotation.  By the right hand rule, this means the angular velocity vector of the prop/gearbox/engine rotating machinery points forward.  Pitching the aircraft nose-downward will tilt the angular velocity vector rotating parts downward.  The net change in angular velocity will be a vector pointing roughly straight down.  The reaction on the aircraft is in the opposite direction, pointing straight up.  And by the right hand rule, this reaction will impart a left-turning moment on the aircraft.  
Likewise:
Pitching up will cause a right-turning tendency.
Yawing left will cause a pitching-up tendency.
Yawing right will cause a pitching-down tendency.

And you can definitely observe this behavior in AH.  Whether or not the strength of the behavior is correct, is beyond my knowledge to judge or test.  But the behavior is definitely "there".

[gripen]

dtango,
The flight envelope tells directly practical maneuvering region of the P-51D at given weight. You can use it directly for EM analyses, please read the report .

gripen

[ergRTC]

my phd in gut reactions says funked is dead on too.

I think I remember Calculus Based Physics in college....  If I remember correctly that was the 2.5 hour nap I had twice a week for 2 semesters of my senior year....

[Hooligan]

Spritle:

You misunderstood my post.  Torque is modeled in AH.  My point is that just because a player doesn't "feel" torque in AH they way they would in a piper cub, this does not mean that torque is not modeled.  Just as (and thank you for the nicely illustrative example) a player doesn’t “feel” a .50 round ripping through their chest in AH like they would in the real world, this does not mean that weapons effects are not modeled in the game.

Hooligan

[funkedup]

Adding to Hooligan's comments:

Remember that "torque" and all the other destabilizing forces caused by the propulsion system are opposed by the natural stability of the airplane.  Dihedral, wing sweep, and most importantly, tail surfaces, all tend to stabilize the airplane.  

The effects you feel will be a result of the tug of war between all of these factors.  Even if the propulsion side effects are perfectly modeled, a small variation in the stabilizing effects will give you a different feeling of what the plane is doing.  

One thing that works in favor of a high-powered aircraft is the fact that the propwash significantly increases the effectiveness of the tail surfaces, especially at low airspeeds.  Is it modeled perfectly in AH?  I don't know, and I don't have the time to devise a quantitative means of determining the answer.

I will note one thing:  In my reading of handling qualities evaluations and pilot's manuals for many WW2 fighters, there is a trend: the aircraft were supposedly easier to recover from a stall or spin with the throttle at idle.  But in AH I have found that going to idle makes the planes less stable and harder to recover.  The most rapid recoveries, even in a nose-up attitude, are obtained with full power.  

Which tends to support the idea that the stabilizing effects of propwash in the game could be a little too strong.  But it's a subjective observation in the game compared to second-hand subjective observations from real life, so I'm not prepared to start telling HTC that all of their painstakingly prepared mathematical models are faulty.

[Sundog]

Unit Analysis?!!!
FunkedUp, you geek

I don't know how many times that saved my butt on a test!

[Badboy]

Originally posted by hazed-
dtango PLEASE PLEASE PLEASE add the 190d9 to that chart?

i would be hugely gratefull and i'll promise never to shoot at you in the game if i do ill imediately auger with a huge appology! hehe

Hmm does that deal apply to me also?

Here is my EM analysis with the D9 added to the La7 v P-51 comparison for the AH flight model.



Hope that helps...

Badboy

[dtango]

gripen:  I'll digest the report.

Badboy:   thank you sir.
 
Tango, XO
412th FS Braunco Mustangs

[gripen]

dtango,
Also this  report contains additional information. You can see that the shape of the flight envelope of the Mustang (or other planes with similar wing profiles) is different than in the case of the earlier wing profiles. Therefore it's easy to figure out that there is something wrong in your or Badboy's EM curves in the case of the P-51D if compared to the real world data. Anyway, for this game those EM curves are OK; we can't except perfect flight model.

gripen

[Tumor]

Originally posted by Hooligan
Wilbus:

You seem to be asserting that there is something seriously wrong with AH's FM.  Would you care to offer some proof, including perhaps some verifiable way to measure torque in AH?

Hooligan

[Badboy]

Originally posted by gripen

Therefore it's easy to figure out that there is something wrong in your or Badboy's EM curves in the case of the P-51D if compared to the real world data.
gripen

Hi Gripen,

I use a flight model in my analysis that allows me to add or omit various aerodynamic effects so that I can use it for different flight simulations, and the one I use for performance analysis of real world aircraft includes every relevant factor. If I compare the results with a simplified model, one that does not include the reduction in lift due to compressible flow, and does not include the increase in lift due to thrust or prop wash, the resulting curves are almost identical. It is, therefore, hardly surprising that some developers choose not to model those things at all. However, there isn’t anything wrong with the EM curves I’ve produced for any of the Aces High aircraft, based on extracted data, or the ones I’ve produced based on real world data.

The fact is that changes in the various coefficients are somewhat masked when the large number of parameters involved are all merged together numerically to produce the curves. I know this because the effects described in those reports have been included in my analysis and only appear to make a negligible difference to the EM curves for prop fighters, and in practice the reduction in the coefficient of lift due to compressible flow appear to be masked, to some extent, by other effects that increase the coefficient of lift, such as the contributions to lift from thrust and propwash, so that although those things have been modelled, they aren’t at all obvious on that type of diagram. In order to illustrate that I’ve attached an example of an EM analysis that shows the influence that Mach number would have on EM curves for a prop and subsonic jet.



This diagram was originally produced to help show how those factors influenced the variation in turn radius and explains why Shaw refers to a minimum turn radius that occurs below corner velocity, while most prop fighters have their minimum turn radius at their corner velocity. That happens because the results of the factors mentioned in those reports are more noticeable in the jet due to the higher Mach numbers involved, after all, its corner velocity is comparable with the maximum speed for the prop fighter. In the prop fighter the difference in corner speed, for example, caused by this is typically only in the order of a few mph, as you can see in the diagram, but in practice the factors I mentioned previously mask that shift and translate the curves back towards their original positions. I believe it would be impossible to see that anything was wrong with the curves on any of the relatively slow prop fighters by inspection. Even on the supersonic jets it takes dramatic variations in the various aerodynamic coefficients, such as those that occur in the transonic region, to distort the curves in a significant and readily noticeable way.

Badboy

[Badboy]

Originally posted by dtango

Badboy:   thank you sir.
 
Tango, XO
412th FS Braunco Mustangs

You are welcome.

Looks like Hazed is still gonna shoot me down without augering after though, despite the D9 info

Badboy