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This makes the "drawings on a napkin to first flight in some ridiculously short (90 days?) time frame" mythology look rather dubious. Unless they were already into the research and this was just a fortuitous opportunity to try some of these things out?The NAA engineers carried out much research through the RAE at Farnborough and NACA, including the oft mentioned Meredith Effect, so it was no happy coincidence.
The question I have is, did all the design choices... result from a coherent attempt to build a better P40, or were they a string of happy coincidences, where one choice more or less led to the next?
Also, how much American input was there to the basic design principles, (other than pulling them together into a single package) vs concepts developed from British R&D?
Unless they were already into the research and this was just a fortuitous opportunity to try some of these things out?
Reducing drag, through airfoil selection and cooling installation, was highly influenced by NACA research
I could be wrong here, but I don't think the drop-tanks had any real effects on CG. The reason they didn't have a full fuselage tanks unless they were carrying drop-tanks had to do with the fact that the center-tanks had the CG up on the aft limit.BiffF15 said:If I'm to understand you the P51 BCD models could takeoff without drop tanks but with a full fuselage tank? I'm trying to determine fuels effects on C/G, or allowances.
I didn't know about the scale of their bomber-force, but they definitely supported the teachings of Giulio Douhet: The problem was the Soviet military was trained by Trotsky, and Stalin was a malignant narcissist (a terrifying combination of narcissist, psychopath, paranoid, and sadist all in one) who figured he'd be better off just rubbing them all out, rather than risk any of them turning on him.Actually, the "bombing the whoever into submission" was integral part of the Soviet military doctrine for quite long time. Massive fleet of TB-3 have been built not just for parades. Strategic bombing force of the USSR has been probably the largest in the world until the WWII.
I didn't know they needed research at the RAE to help design the radiator correctly, but from what I remember: They were working on fighter concepts as early as 1935 (it was a two-seat fighter along the lines of the PB-2), and around 1939-1940 they were working on a fighter design.You know Wes, you could make a whole new thread on that last question alone! There are quite a few threads on this site that will answer those prickly Mustang questions for you. But to summarise, the airframe design was pretty much all NAA; no British input (apart from separate papers acquired from Farnborough) at all, except that it was to have an Allison engine in common with the P-40. The NAA engineers carried out much research through the RAE at Farnborough and NACA, including the oft mentioned Meredith Effect, so it was no happy coincidence.
I didn't know about the scale of their bomber-force, but they definitely supported the teachings of Giulio Douhet: The problem was the Soviet military was trained by Trotsky, and Stalin was a malignant narcissist (a terrifying combination of narcissist, psychopath, paranoid, and sadist all in one) who figured he'd be better off just rubbing them all out, rather than risk any of them turning on him.
The people who remained were either mostly proponents of battlefield support, or Stalin was and none of them felt like getting their brains blown out.
The original P-51's actually had a variable-area radiator that (if I recall correctly) extended out at low speeds where more airflow was needed, and retracted in for high-speed where sufficient airflow was present or cooling. It did around 382 mph, which was faster than the P-40 on the same engine; When the P-51A came along (the British might have inspired the radiator design), the earlier configuration (which had a small splitter to remove some of the turbulent flow) was replaced with a fixed geometry configuration that had a much larger splitter (probably a larger divergent angle for the radiator intake), and proved to be more effective (and mechanically simpler): Speed increased to around 409 mph.
Have you got some sources for this??
The P-51A was the 4th version of the Mustang (if one counts the A-36), 620 Mustang Is, 150 P-51/Mustang IAs, 500 A-36s and then 310 P-51A/Mustang IIs.
With over 1200 Mustang/Apaches built before the P-51A there should be some sort of pictures of this radiator arrangement you talks about.
Speeds also changed because the planes used different engines with different supercharger gears and different allowable maximum boosts.
That's correct...So the intake lip was adjustable. Not that the radiator itself was movable as many aircraft had resorted to in the 30s.
As noted there were problems with P-51's original duct intake. Ray Wagner quotes Edgar Schmued in his book "Mustang Designer":
"The British Air Ministry s extremely helpful. Among others they sent us Dr. B. S. Shenstone [who arrived February 25, 1941], to assist us in some of the airflow problems into the radiator. The radiator, as we had it, consisted primarily of a fairing, which started at the bottom of the fuselage and enclosed the radiator. Dr. Shenstone advised us to provide an upper lip on the radiator housing, which was about 1 ½ inches below the fuselage contour. By doing this, we got a much better pressure distribution in the air scope. Beverly Shenstone was the chief aerodynamicist on the original Spitfire.
On the other hand the Ed Horkey, the P-51 aerodynamicist, gives the credit to Irving Ashkenas.
North American had problems again with the original Merlin P-51 (duct rumble) which was resolved by the distinctive slant to the intake.
The Mark III Spitfire was to have a boundary layer splitter but this was not implemented in latter marks. The Me 109F had a splitter but this abandoned in the 109G. Perhaps the complication was not worth it in the constricted space of the wings.
One of the points of contention in the P-51 story is the aerodynamic data North American purchased from Curtiss. According to some Curtiss partisans NA stole the P-51 design from Curtiss, while on the other side some North American protagonists claim the data was never looked at. I have always been intrigued by the attached NACA report on the aerodynamics of US aircraft cica Oct 1940. Figure 14 shows the radiator installation of Airplane 11, which must be the Curtiss P-46, it looks very similar to the original P-51. The entire report is an interesting read
As noted there were problems with P-51's original duct intake. Ray Wagner quotes Edgar Schmued in his book "Mustang Designer":
"The British Air Ministry was extremely helpful. Among others they sent us Dr. B. S. Shenstone [who arrived February 25, 1941], to assist us in some of the airflow problems into the radiator. The radiator, as we had it, consisted primarily of a fairing, which started at the bottom of the fuselage and enclosed the radiator. Dr. Shenstone advised us to provide an upper lip on the radiator housing, which was about 1 ½ inches below the fuselage contour. By doing this, we got a much better pressure distribution in the air scope."
TRUE
On the other hand the Ed Horkey, the P-51 aerodynamicist, gives the credit to Irving Ashkenas.
Partially true for the final iterations to the intake, divided duct and change to radiator intake plenum geometry
North American had problems again with the original Merlin P-51 (duct rumble) which was resolved by the distinctive slant to the intake.
No. As may be observed and pondered upon for the XP-51F/G/J, P-51H and XP/F 82 - all perpendicular to airflow.
The Mark III Spitfire was to have a boundary layer splitter but this was not implemented in later marks. The Me 109F had a splitter but this was abandoned in the 109G. Perhaps the complication was not worth it in the constricted space of the wings.
The concept of Splitter to achieve less separated BL flow is important, but the internal planum/single radiator and oil cooler 'deeply' within the outer surface of the airframe, and exit plenum long enough to achieve desired exit flow properties are all necessary.
One of the points of contention in the P-51 story is the aerodynamic data North American purchased from Curtiss. According to some Curtiss partisans NA stole the P-51 design from Curtiss, while on the other side some North American protagonists claim the data was never looked at. I have always been intrigued by the attached NACA report on the aerodynamics of US aircraft cica Oct 1940. Figure 14 shows the radiator installation of Airplane 11, which must be the Curtiss P-46. The installation looks very similar to the original P-51. The entire report is an interesting read.
I don't know when Ludlow-Hewitt wrote that. I suspect he made that comment in the late summer of 1938 when he suggested a reconsideration of Air Ministry policy on escorts, though he admitted to not knowing what a suitable type might look like.
According to Max Hastings in Bomber Command, it was "a few months before the outbreak of war..."