One of the problems associated with modeling an aircraft, specifically a WWII fighter, is that there exists no real world quantitative testing that measured turning ability with flaps fully down. I have never seen any and I'll wager no one else has either. It was something that was not tested. Therefore, HTC has to make decisions based upon what they do know. No doubt, it's an imperfect art.
Likewise, I have not any testing of minimal turn radius clean. Most testing was done on a comparison basis.
There is flight testing of a P-51 (Allison) comparing maneuverability to the P-39D, P-40F (Merlin powered), P-38F and P-47C. We know the takeoff weight of the this P-51, 8,443 lb. We don't know how much of its 140 gallons was burned off prior to the actual "dog fights", but we can assume that it was proportional to the others. Note that this P-51 shares the same basic air frame with P-51B, including the wing and tail appendages, except that the rudder trim was changed and rigged as an anti-balance tab. This Allison P-51 is lighter by 440 lb in basic weight.
The text from the test describes the comparison as follows:
b. Maneuverability. The subject aircraft was flown in "mock" combat against the P-38F, P-39D, P-40F, P-47B, and the Mitsubishi "00" type of aircraft.
c. The following results were obtained:
(1) The subject aircraft was found to be superior in speed of the Mitsubishi "00", P-39D, P-47F at all altitudes and the P-47B and P-38F up to fifteen-thousand (15,000) feet.
(2) The subject aircraft was found to be superior in rate of climb to the P-39D, P-40F, and the P-47B up to fifteen-thousand (15,000) feet.
(3) The acceleration in dives and the maximum permissible diving speed of the subject aircraft is superior to all types tested.
(4) The turning characteristics of the subject aircraft are substantially the same as the P-40F and the P-39D. None of these appears to have any definite superior turning characteristics.
(5) In close "dog fighting" the subject aircraft has the very decided advantage of being able to engage or break off combat at will. However, if neither airplane attempts to leave the combat, the P-40F is considered to have a slight advantage.
Let's look at our P-51B... The minimum takeoff weight that can be produced in the game is 8,213 lb. This is obtained by shooting out all of the ammunition prior to takeoff. This weight is substantially less than the takeoff weight of the P51 in the above test. Even if the that P-51 had burned off 40 gallons of its fuel, it would weigh in at 8,195 lb, very close to the 8,213 lb for a light P-51B.
Let's compare our P-40E to the P-40F. Like the P-51B, this P-40 was fitted with a Merlin. This installation added nearly 400 lb to the airframe. So, if we compare the P-51B to the P-40E, we need to allow for an additional 400 lb of weight for the P-40E. Takeoff weight for a fully loaded P-40F is 8,678 lb. Let's reduce that by 40 gallons of gas. That comes out to 8,430 lb. With that figure in mind, I'll configure the P-40E to that weight. To get this, I load 75% internal fuel and a drop tank. I then have to shoot out a little ammo to get down to 8,430 lb. The drop tank adds drag, so the numbers will be skewed to reflect that.
With both fighters configured, I then do a minimum turn radius test, both clean and with full flaps.
So, in "close dog fighting", is the P-51B only "slightly" inferior to the P-40E at the weights defined above?
Minimum turn radius clean...
P-40E: 743.5 feet
P-51B: 770.6 feet
Minimum turn radius full flaps...
P-40E: 566.4 feet
P-51B: 601.1 feet
Remember now, the P-40E has 75% fuel and a 75 gallon drop tank, vs a P-51B with 25% fuel and no ammo.
The ratio between clean and full flaps is about the same between them.
However, I don't see this as a "slight" difference. It's roughly the same as the difference between a SpitV and a SpitIX, which is much more than "slight".
Moreover, the fact that a clean A-20G easily out-turns a clean P-51B should create a pause for thought, agree?
My regards,
Widewing
