Loading AI tools
From Wikipedia, the free encyclopedia
The Curtiss P-40 went through five significant transformations, comprising 10 mass-produced combat variants, in its international military service.
Twin nose guns, smaller engine cowling, "long" nose
1941–43
This was the original "long nose" P-40, a direct development of the moderately successful P-36 Hawk series of fighters, changed by the addition of a liquid cooled Allison V-1710 V-12 inline engine. The change conferred a 50 mph speed advantage over the already popular Hawk, and export orders from England and France came in quickly, with the United States Army Air Force also putting in domestic orders.
This was a very important type for the Allies in the early part of the war. Many were destroyed on the ground at Pearl Harbor and in the Philippines in December 1941 but these aircraft did well in combat with the AVG in China and Burma, and the Tomahawk was an effective fighter available to the RAF in the early months of the Desert War. It was also a small but important part of the Soviet arsenal in 1942, being one of the few types available to them which could take on the Bf 109 on equal terms at the low altitudes where combat took place there [5]. The Soviets reportedly stripped the wing guns from some of their Tomahawks to improve performance[5]..
In the Mediterranean Theater, the first Tomahawks arrived to join the Desert War with 250 Sqn RAF in June 1941. After initial teething problems were worked out, the relatively heavily armed, fast and maneuverable Tomahawk immediately started taking a heavy toll on Axis bombers, and Italian Fiat G.50 and German Bf 110 fighters. It proved sufficiently challenging of an opponent to the Bf 109E in combat that Luftwaffe pilots were soon demanding the replacement of the 'Emil' by the faster and more maneuverable 'Franz' Bf 109F[6].
On November 22, 1941 there was a significant engagement in which the Tomahawk was put to a hard test by the Bf 109F. At 1540 nine Tomahawks of No. 112 Squadron RAF were joined by thirteen Tomahawks of No. 3 Squadron RAAF for an offensive sweep over the Tobruk-El Adem area[7]. At roughly 1600 hours they were intercepted near Bir Hacheim by 20 Bf 109Fs attacking from 3,000 feet above [8]. During the subsequent hour long engagement, which took place near two German airfields, JG 27 fighters landed and refueled to rejoin the fight. In the melee DAF fighters claimed three Bf 109s shot down and four "probables", while JG 27 claimed 11 P-40s [9]. The actual losses were 6 Bf 109F-4s and 7 Tomahawk IIbs shot down and 1 badly damaged (the aircraft of future RAAF Ace Bobby Gibbes) [10]. In the aftermath of the bloody fight both sides were shaken. The Germans believed they had come out ahead but felt the losses were unacceptable , and therefore made the decision not to dogfight the Tomahawk with the Bf 109F in the future [11], and instead to rely on 'boom and zoom' tactics[12], which while effective, imposed certain Tactical limitations.
Tomahawks were used by the RAF's Army Cooperation Command from February 1941 in developing high speed, low level, tactical reconnaissance for the British Army. They were replaced in this role by the Mustang I in mid 1942.
The earliest version (P-40) had only four guns and lacked armor plate or self-sealing tanks, but the British pressed these into service into North Africa anyway as Tomahawk Is. The P-40B (Tomahawk IIa) had armor behind the pilot, an armored windscreen and partially protected fuel tanks, the P-40C (Tomahawk IIb) had a fully protected fuel system, provisions for a drop tank, and became heavier, reducing speed to under 350 mph.
Though the total weight of fire was much lighter than later model P-40's, and the nose armament had a lower ROF due to firing through the propeller arc, the two .50 caliber nose guns were very accurate, hard hitting and could be recharged from within the cockpit in the event of a stoppage. This was an advantage over the early Kittyhawk (P-40D and E) types which often had problems with jammed guns. In a 1993 interview for the Australian War Memorial [13], Australian Ace Bobby Gibbes described the issue and the contrast between the two types:
There were a variety of differences between the British Commonwealth and US variants, (starting with the guns, .303 instead of .30 caliber) so that there is not actually an exact correlation between specific US variants (P-40B etc.) and British Commonwealth export versions (i.e. 'Tomahawk')
Though strongly built, the very first P-40's were poorly protected and lacked armor and self sealing tanks. This was partly rectified with the P-40B and C but fuel system and control line vulnerability remained a problem to some extent with Tomahawk types. Later 'Kittyhawk' and 'Warhawk' models were better protected and more robust. Engine management and trim management were both somewhat complex and taxing with early P-40's especially with early versions, with strong rudder pressure required to offset engine torque and frequent trim adjustments needed during rapid speed changes.
P-40's were more powerful, faster-flying aircraft than the primary and advanced trainers most early-War Allied pilots were familiar with, and transition training was often inadequate or neglected altogether in the early years of the war. The landing gear was also more narrow and not as strong as in fixed gear aircraft (like the Gladiator) or on some Commonwealth fighters such as the Hurricane. As a result novice pilots had a hard time adjusting to the new fighter and there were many accidents on landing and takeoff in the early years of the war, with both Tomahawk and Kittyhawk types. As training improved these problems subsided.
Deeper engine cowling, ('definitive' P-40 "Look") four/six wing guns, "short" nose
1941–43
This was the first version armed with wing mounted .50 caliber machine guns. The main (really only) difference between variants is that the P-40D (mostly used by the RAF who got 560 of them as Kittyhawk I) had four guns and the P-40E (with 1,500 used by the RAF as the Kittyhawk Ia [15]) had six guns.
More powerful than the P-40B/C in terms of armor, armament and top speed, the P-40E had an Allison V-1710-39 rated at 1,150 hp for takeoff, and 1,470 hp for War Emergency Power at Sea Level (for 5 minutes)[16]. The P-40E or Kittyhawk II was the type which fought as a fighter during the most crucial early period in both the Pacific and North African campaigns. The P-40E played a major role in the defense of Philippines and Java (NEI) where they were for the most part wiped out - often caught on the ground and generally outnumbered- by the formidable Japanese War Machine; and in Australia (Darwin) and New Guinea in 1942, where they were more successful (notably at Darwin and Milne Bay). Kittyhawks formed the backbone of the Desert Air Force (DAF) in intense fighting against the Luftwaffe and Regia Aeronautica also in 1942, and the P-40E was also an important type for the Soviets, particularly in the Leningrad area but also in the siege of Moscow and at Stalingrad [5]. In 1942 P-40Es began to replace older Tomahawk type (P-40 B or C) fighters in China with the AVG, equipped the 23rd Fighter Group which took over in the CBI. In this Theater they did well against JAAF aircraft such as the Ki-43 and Ki-27 fighter, and Ki-21 bomber.
The top scoring DAF squadrons, including No. 3 Squadron RAAF and No. 112 Squadron RAF, transferred from the Tomahawk to the Kittyhawk starting in Dec 1941, scoring many kills against Luftwaffe and Regia Aeronautica types, helping the DAF to hold on through this tough period. Many DAF P-40 units also took heavy casualties - especially as more Me 109F variants began to arrive in Theater in late 1941.
In a 1993 interview for the Australian War Memorial [13] Australian Ace Bobby Gibbes noted that DAF pilots were initially unimpressed with the Kittyhawk compared to the earlier Tomahawk, but noted that once they had 'improved the engine performance', the Kittyhawk was clearly superior:
Gibbes, who flew a captured Bf 109F and a 109G, also noted that while the Bf 109 had superior climb, ceiling and top speed, the P-40 was more maneuverable and had a better dive speed [13]:
Flying with No. 75 Squadron RAAF and No. 76. Squadron RAAF, Kittyhawk Mk 1 and 1a fighters shot down raiding Japanese aircraft, sank invasion barges, and played what was called by a local ground commander "the decisive factor" [17] in the critical Battle of Milne Bay in New Guinea in 1942. Early Mark Kittyhawks also played a key role in the defense of Darwin, Australia in 1942 (where the Australian Kittyhawks were supported by American P-40s of the 49th Fighter Group), and in the battles along the Kokoda Trail. Australian units later received Kittyhawk III /P-40K and some Kittyhawk II / P-40F/L fighters which were used mostly in late 1942 and 1943, after which they were replaced by Kittyhawk IVs / P-40N. But the most critical fighting in 1942 was done by Kittyhawk Mk I and Ia.
As with all P-40's, the main problem was the effective altitude ceiling of for the D and E model, about ~ 12,000 feet. Above that altitude the single-stage Allison V-1710 engine started to perform poorly. As a result, unless combat was taking place at low altitude, P-40 pilots often faced attack from above in the opening stages of an interception, a chronic problem which cost many lives and was difficult to adapt to. This was particularly a problem with the Australian and New Guinea Campaigns, where Japanese bombing raids were attacking from altitudes up to 27,000 feet, in part due to Australian AAA. The P-40s, with their very limited performance at that height (including climb rate which meant it took a lot longer to reach that altitude), were forced to adopt special tactics, attacking in flights of 4 planes at a time to force the A6M 'Zero' escorts to remain close to the bombers[18]. The tactics were fairly successful in spite of the challenges, with Japanese records indicating the loss of 19 Japanese aircraft destroyed for the loss of 19 P-40s [19]. In the CBI, and the North African and Russian Theaters of War, the combat altitudes were much lower, and though early model Kittyhawks were still routinely attacked from above, their performance was not hindered, to the contrary. If they could avoid or survive being bounced, they could pose a real threat, and they destroyed a large number of enemy aircraft as a result.
The P-40D and E variants, while much more heavily armed than the earlier Tomahawk types, were slightly overweight and had a poor rate of climb (a problem that could be partly dealt with by stripping extra equipment from the plane [20] and / or overboosting the engine) and suffered from problems with their 0.50 inch caliber M2 machineguns. When maneuvering in high G turns the guns would often jam due to the way the ammunition was stored [21].. This was eventually corrected in the P-40E (and all subsequent versions) toward the end of 1942 but it caused frequent gun stoppages in combat until it was. In his 1993 interview for the Australian War Memorial [13], Australian P-40 Ace Bobby Gibbes described the problem:
Like all early P-40 variants, P-40D and E models had some issues with takeoff swing and lateral stability requiring frequent trim setting changes when changing speed, as noted by Canadian P-40 Ace James Francis Edwards[22].
P-40K has expanded fin, later M models had extended tail
1942–44
The P-40K was essentially a P-40E with a significantly higher rated Allison engine in it, the V-1710-73 rated at 1,325 hp for takeoff [23] and 1,550 hp for War Emergency Power (for 5 minutes) at Sea Level [24]. The K was initially supposed to be the last P-40 built in large numbers, but the failure of the P-60 program and ongoing problems with the P-39 and P-38 forced the production run to continue. These were the heaviest P-40 variants, but the extra horsepower on the P-40K gave it good performance particularly at low altitude (noticeably better than the P-40E). The more powerful engine caused problems with the torque especially during takeoff, which is why the distinctive tail fin was added to help correct the takeoff swing. Later versions had the extended tail also seen on the F/L, M and N versions, which largely alleviated takeoff swing and required less frequent trim changes such as when performing a loop. The P-40K also featured improved machine gun ammunition storage reducing gun stoppages.
The P-40K was arguably the most important type used by the 10th Air Force and 23rd Fighter Group in the post- AVG days to establish air superiority in the China/Burma/India theater, achieving dominance over Japanese Army types in that region which was retained by P-40 squadrons until the end of the war [25]. In general they performed well in the Pacific and CBI. The P-40M was also an important type for the RAF / Commonwealth forces (with at least 250 delivered as Kittyhawk III, used mainly in the Med and 50 specifically to Australian units) and for the Soviets, who used it primarily for PVO (air defense) and naval aviation units in the Baltic. Several Soviet aces scored many victories while flying the P-40K including M. V Kuznetzov [26] who ended the war with 36 individual (22 with the P-40) and 12 shared victory claims, Leonovich Ivan Semyonovich (28 victories, most in P-40), and Denisov Konstantin Dmitrievich who scored all of his 13 individual and 6 shared victories while flying the P-40K specifically [27]. Soviet pilots such as N.G. Golodnikov noted that in 1943 the P-40 was still competitive with the Bf 109 [28]
Though used mainly as a fighter-bomber in the Med (with P-40 F/L and later lightened variants of the P-40N taking the lead for bomber escort and fighter sweeps), P-40K pilots flying for both RAF / Commonwealth units and USAAF units such as the 57th Fighter Group nevertheless continued to score air to air victories there as well as in the CBI all the way through 1943 and into 1944. Though the preferred variant for US P-40 units in the Med was the P-40F/L, the supply of these aircraft and replacement engines for them was limited and they began to be replaced and augmented by P-40Ks starting in 1943. The same thing happened with the two Commonwealth units flying the P-40F, 260 RAF and 3 RAAF, though the former returned to the use of P-40F for several months after experiencing increased losses flying the P-40K.
One method used in the field to increase performance of all combat variants of the P-40 was to "over-boost" the engines to a higher manifold pressure and in some cases run them at increased RPM. Post war rumors circulated about this practice and veteran fighter pilots mentioned it in informal interviews. A Dec 12, 1942 confidential memo from Allison engine company [29] shed light on this practice and provides evidence of the routine practice of overboosting P-40s. Allison acknowledged that they had agreed to the rating of 60" Hg manifold pressure as a standard WEP setting on Allison V-1710-39 and V-1710-73, the engines in the P-40 D/E and P-40K respectively. This later became the standard WEP setting for the P-40K. Allison technicians returning from the field reported that pilots in an unnamed squadron in Australia 'admit operating for prolonged periods at around 70" Hg of boost' which they estimated would produce 1780 hp near Sea Level [29]. Another squadron in the Middle East was resetting boost controls to 66" Hg, estimated to produce 1770 hp at 2,000 feet [29] at 3200 R.P.M. Allison advised the War Department that such practices could cause engine failure in the later generation (V-1710 - 83,-85 and 81) engines with a higher 9.6:1 supercharger gear ratio. The memo also noted that overboosting was safer with higher quality "Amendment 5 fuel"[29]
Australian Ace Bobby Gibbes described an incident[13] in which he was able to take advantage of extra power from a Kittyhawk III to shoot down a Bf 109 out of a formation of three planes which were passing over his squadron. Gibbes noted that this Kittyhawk III was faster than the Merlin powered Kittyhawk IIs he was flying with:
The P-40M was supposed to be a purely export variant of the K though some ended up in USAAF units. Though the V-1710-81 engine on the P-40M was rated much lower (1,360 hp for WEP, 1,200 hp for takeoff [30]) than the V-1710-73 on the P-40K the -81 had slightly better power at altitude (1,125 at 15,500 ft for the M vs the same power at 12,000 ft for the K). P-40M were, like the K designated as Kittyhawk III in Commonwealth service, which can make them hard to distinguish from the P-40K (especially late model P-40K with the extended tail). 264 were delivered to the RAF, 168 to Australia, and 34 to New Zealand. Most of the RAF aircraft were operated in the Med.
The main problems remaining were the effective performance ceiling of 12 - 15,500 ft. Secondary issues included the takeoff swing and torque caused by the more powerful engine, which was partially addressed by the tail fin and more satisfactorily by the lengthened fuselage in later models. Due to the heavier weight, at least when fully loaded, initial climb rate suffered. This could be addressed via lightening the aircraft (reducing fuel etc.) or by overboosting the engine which was used in combat to get shots at enemy fighters which attacked and then climbed away.
Canadian Ace James "Stocky" Edwards noted that most of the stability and engine management problems he experienced with the earlier Marks of Kittyhawk were resolved in the Kittyhawk MK II and III:
Edwards also noted that the P-40 could turn inside the Bf 109, though not as easily as the Spitfire, and that the Mk III was fast, with a cruising speed comparable to a Spitfire Mk IX, while the Mk II had a cruising speed comparable to a Spitfire Mk V. [32].
Packard-Merlin engine, no intake on top of engine, some (all later) models were lengthened by 29", some P-40F and all P-40L had two deleted wing guns. Sometimes referred to as 'Warhawks' in DAF contexts to distinguish them from earlier Kittyhawk variants. Luftwaffe units, making note of the increased performance and longer body shape, frequently misidentified these aircraft as 'P-46'.
1942–44
This version fulfilled the long-standing wish of the British to fit the P-40 with a Merlin engine (which is what ultimately led to the development of the P-51), but it arrived in combat relatively late and ironically, few of this type made it to Commonwealth units. 1311 P-40F and 700 P-40L were produced, with most being taken over by the USAAF which was then just getting into combat in Tunisia, and a few being diverted to Russia. The Packard Merlin engine improved performance, but the single stage, two-speed supercharger still limited the effective ceiling to about 20,000 feet. The engine used was not the famous Merlin 60 series used in the P-51 and Spitfire MK IX with a two stage blower, but rather it was a variant of the earlier Merlin XX used by the Hawker Hurricane II and Spitfire MK V. The decision to use the single-stage supercharger version, (the Packard V-1650-1, known to the British as the Merlin 28) which had much less power and altitude capability than the Merlin 60, was part of what triggered P-40 designer Don R. Berlin to leave Curtiss aircraft company [34]. As a result, while performance at altitude was improved it was only increased by 5,000 feet. Many P-40Fs were lightened in the field by US squadrons to make them 'hot' by removing some armor and wing guns, and the P-40L was built with less armor and some fuel tanks removed, but even the F variant of the P-40 suffered from limited altitude capability, which was a source of immense frustration to the War Department and pilots and commanders in the field.
Ultimately only ~ 250 merlin engined were assigned to the Commonwealth (150 P-40F and 100 P-40L [35]), divided evenly between the elite 260 RAF and 3 RAAF [36] squadrons. The RAF who jokingly referred to this variant as the "gosh-hawk", used them to good effect in the Med / Italy region (as Kitthawk IIa and Kittyhawk II) with 6500 sorties flown and 60 enemy aircraft claimed between June 1942 and March 1944 [37]. Only a limited number of these higher performing aircraft and their Packard Merlin engines were available though and once these were worn out or used up 260 and 3 squadrons reverted to the lower altitude Allison-engined Kittyhawk III and Kittyhawk IV.
This was however the main variant with which the five USAAF fighter groups in the Theater faced the Luftwaffe and Regia Aeronautica during the heaviest air-to-air fighting in 1942 and 1943.
The modest performance improvement from the Merlin engine, most significantly the increased performance ceiling of 20,000 feet, was enough to make a difference in the Mediterranean theater and merlin-engined 'Warhawks' were used mostly for air superiority (escort, CAP and fighter sweep) missions, often escorting bomb laden Hurricanes or the older Kittyhawk I / P-40E still in use with the DAF. When flown with proper tactics by good pilots as they frequently were in this stage of the war, the P-40F/L seemed to perform surprisingly well. For example while using the Kittyhawk II and IIa 260 Squadron RAF claimed 32 confirmed victories - including 20 Bf 109 and 6 MC 202- for 19 operational losses to all causes. [38]. Lt Richard T Conly of the 315th FS / 324th FG emphasized his appreciation of the strengths of the P-40F when he described an April 29 1943 encounter over Tunisia in which he scored his first confirmed victory:
The P-40L was an official lightened version with many of the field modifications built in, nicknamed "Gypsy Rose Lee" after the famous stripper. Some had four guns, some only had two. Top speed for this type was 368 mph, essentially the same as the P-40F, but climb and acceleration were noticeably better, and the RAF considered the type to be more stable than the F [40], (possibly because all of the P-40L were lengthened whereas only about half of the F model were). The F and L variants could cope with the Bf 109F and G within their effective performance ceiling and modern documentation shows that they shot down many Luftwaffe fighters. For example while flying P-40F/L, between May and September of 1943 pilots of the 325th Fighter group claimed 102 victories in 37 missions, for the loss of just 16 aircraft [41]. Four pilots from the group made Ace during this period, mostly while flying missions over Sardania [42]. The P-40 F/L were the variants most widely used by the successful 33rd Fighter Group, 324th Fighter Group[43], 325th Fighter Group, 79th Fighter Group [44], [45] and 57th Fighter Group[46], and also by the Tuskegee Airmen's 99th Fighter Squadron in Italy for a short time.
P-40F/L variants were supplied to Free French squadrons flying in North Africa, many of these were previously flown (and somewhat worn out) by USAAF or RAF units.
After the first 200 or so aircraft were produced, all of the later run P-40F/L types were lengthened by 29" like the later P-40N, a measure to cope with the increased torque of more powerful engines.
Though the Merlin engine increased the performance ceiling to 20,000 feet, which helped in combat, P-40F/L pilots still sometimes faced the uncomfortable prospect of being attacked from above by high flying Me 109 and MC 202 / 205 fighters. Early versions of the P-40F were slightly overpowered for the airframe making takeoff's challenging and contributing to accidents; the lengthening of the tail helped a great deal [47]. P-40F variants as delivered were still somewhat overweight in spite of the relatively powerful engine, but this could be dealt with by stripping weight (many were lightened by ~200 lbs) and / or by overboosting the engine, which was frequently run at 60" of mercury (+15 lbs by RAF measure) during air combat. Greatly improved reliability of the guns meant that one pair could be removed from the plane as part of lightening efforts, sometimes two, with the result that some planes sometimes had reduced firepower.
Though lightened P-40L had slightly better performance than the P-40F, the removal of two of the wing fuel tanks caused a reduction in effective range which affected flight operations notably in the invasion of Sicily and during the campaign over the Anzio beachhead. As Axis fighters became rarer on the Mediterranean battlefields, wing guns were added back in so that by 1944, most surviving P-40L were flying with 6 guns. The extra firepower was useful for strafing. Similarly in the Pacific Theater almost all P-40F&L used by US and Australian squadrons had 6 guns.
Modified rear cockpit with expanded view, lengthened fuselage, some models had two deleted wing guns
This version (Model 87V, 87W) was the most produced of all P-40s, with 5,220 examples built [48]). It remained in use as an air superiority fighter in the CBI, and was still used in the Med as an air superiority fighter in some missions by RAF units, but it its main niche was increasingly as a fighter/bomber. The P-40N featured a lengthened fuselage and a more powerful 1300 hp Allison engine but the use of a single speed, single stage supercharger gave the model only a marginally better effective altitude than a P-40E. As with the F/L, there were both 'light' and 'heavy' versions, the lightest 'hot' fighter-configuration-with-four-guns P-40Ns achieved a top speed of up to 378 mph. The first sub-model, P-40N-1-CU, weighed only 2,700 kg (max 4,015) and it was (theoretically) meant to be a high-altitude interceptor. Climb was 6.7 minutes to 4,570 m, and it had a ceiling of 38,000 ft. Only 400 were built.
Some later block P-40Ns were made with a lower-power engine, specifically for training or fighter-bomber missions and had a top speed of only 345 Mph. The production led to many blocks, up to P-40N-40-CU with 1,360 hp and metal-covered ailerons. One of the most important sub-model, the P-40N-15-CU, weighed 6,200 pounds empty, 8,350 loaded, 11,400 max. Its performance dropped to 208 mph/5,000 feet, 325 mph/10,000 feet (thus almost 100 km/h slower), 343 mph/15,000 feet, at 20,000 feet in 8.8 min, service ceiling was 31,000 feet.
Initial climb rate and acceleration were dramatically improved in the lightened version of the P-40N, the only significant issue remaining was the performance ceiling, which was a little better than older variants at ~17,000 feet but still far too low. It meant that in air combat P-40N pilots (including those flying the "high altitude interceptor" subvariant), could still expect to be attacked from above. The lack of a two stage supercharger or turbo-supercharger also meant that the P-40N was limited in speed since the engine didn't perform at the higher altitudes where 400+ mph were usually achieved. At low to medium altitude it was a reasonably fast plane even by late war standards, but by the time the P-40N was available air-to-air combat in Europe was being relegated more to high altitude bomber escort. The P-40N remained competitive in the Pacific and CBI Theaters where it mainly faced Japanese army types such as the Ki-43 'Oscar' and Ki-61 'Tony', and the IJNs old standby A6M 'Zero'.
The starter was removed from the original lightened P-40N-1 version requiring an external starter for takeoff. Some pilots observed that this in effect meant that squadrons took much longer to take off since the starter had to be moved from plane to plane [49]. The battery and internal starter was soon replaced in subsequent blocks [50].
The heavier and lower-powered fighter-bomber variants of the P-40N were overweight and underpowered when fully loaded, and could be considered only 'adequate' for close air support, though they still dropped a lot of bombs in Italy through 1944 and were still used by some RAF Commonwealth squadrons in 1945. Many were used in non combat roles as trainers and so on in the US.
Listing of specifications for early to mid-war P-40 variants.
P-40B | P-40E-1 | P-40K-15 | ||
---|---|---|---|---|
General characteristics | ||||
Crew | One | One | One | |
Length | 31 ft 8 in (9.66 m) | 31 ft 8 in (9.66 m) | 31 feet 2 in | |
Wingspan | 37 ft 4 in (11.38 m) | 37 ft 4 in (11.38 m) | 37 ft 4 in (11.38 m) | |
Height | 12 ft 4 in (3.76 m) | 12 ft 4 in (3.76 m) | 12 ft 4 in (3.76 m) | |
Wing area | 235.94 ft² (21.92 m²) | 235.94 ft² (21.92 m²) | 235.94 ft² (21.92 m²) | |
Empty weight | 5,590 lb (2,535 kg) | 6,350 lb (2,880 kg) | 6,350 lb (2,880 kg) | |
Loaded weight | 7,326 lb (3,323 kg) | 8,280 lb (3,760 kg) | 8,280 lb (3,760 kg) | |
Maximum gross takeoff weight | 7,600 lb (3,447 kg) | 9,200 lb | 10,810 lb (4,535.9 kg) | |
Powerplant | 1x Allison V-1710-33 | 1x Allison V-1710-39 | 1x Allison V-1710-73 | |
Power rating - WEP | 1,040 hp | 1,470 hp 56" Hg @ SL (5 Min) [51] | 1,550 hp 60" Hg @ SL (5 Min)[52] | |
Power rating - Takeoff | 1,040 hp | 1,150 hp 45.5" Hg at Sea Level (5 Min) | 1,325 hp 51" Hg at SL (5 Min) [53] | |
Power rating - Military | 1,040 hp @ 14,300 ft [54] | 1,150 hp 42" Hg @ 12,000 ft (5 Min) [55]</ref> | 1,150 with 42" Hg at 12,000 ft (15 Min) [56] | |
Performance | ||||
Maximum speed | 352 mph (566 km/h) | 360 mph (580 km/h) | 362 mph at 15,000 ft | |
Cruise speed | n.a. | 258 mph (435 km/h) | 290 mph [57] | |
Range | 730-1230 mi (1,173-1,977 km) | 650 mi (1,050 km) | 700 mi (1,050 km)[58] | |
Service ceiling | 32,400 ft (9,875 m) | 29,000 ft (8,840 m) | 32,500 ft | |
Climb rate | 2,860 ft/min (14.5 m/s) | 2,580 ft/min (10.7 m/s)[59] | 2,210 ft/min ft/min (16.38 m/s) | |
Wing loading | 31 lb/ft² 152.3 kg/m² | 35.1 lb/ft² (171.5 kg/m²) | 35.6 lb/ft² (176 kg/m²)[60] | |
Power/mass | 0.16 hp/lb | 0.14 hp/lb (230 W/kg) - 0.17 at WEP | 0.16 hp/lb (260 W/kg) - 0.18 at WEP | |
Armament | ||||
|
|
|
Listing of specifications for later P-40 variants.
P-40F-5-CU | P-40L-10 | P-40N-1 (Interceptor version) | |||
---|---|---|---|---|---|
General characteristics | |||||
Crew | One | One | One | ||
Length | 33 feet 4 in (11,38 m) | 33 ft 4 in (10.16 m) | 33 ft 4 in (10.16 m) | ||
Wingspan | 37 ft 4 in (11.38 m) | 37 ft 4 in (11.38 m) | 37 ft 4 in (11.38 m) | ||
Height | 12 ft 4 in (3.76 m) | 12 ft 4 in (3.76 m) | 12 ft 4 in (3.76 m) | ||
Wing area | 235.94 ft² (21.92 m²) | 235.94 ft² (21.92 m²) | 235.94 ft² (21.92 m²) | ||
Empty weight | 6,590 lb (2,989 kg) [61] | 6,340 lb (2,875 kg)[62] | 6,000 lb (2,905 kg)[63] | ||
Loaded weight | 8,480 lb (3,846.4 kg) | 8,020 lb (3,505 kg) | 7,730 lb (3,505 kg) | ||
Maximum gross takeoff weight | 9,350 lb (4,238 kg) | 8,950 lb (4,238 kg) | 8,860 lb (4,020 kg) | ||
Powerplant | Packard-Merlin V-1650-1 (Merlin 28) | Packard-Merlin V-1650-1 (Merlin 28) | Allison V-1710-115 | ||
Power rating - WEP | 1,435 hp (5 min) | 1,435 hp (5 min) | 1,360 hp (5 min) 57" Hg @ SL [64] | ||
Power rating - Takeoff | 1,300 hp 54" Hg [65] | 1,300 hp [65] | 1,200 hp 51" Hg at SL [66] | ||
Power rating - Military | 1,240 hp @ 11,800 ft [67] or 1,120 hp at 18,500 ft | 1,240 hp at 11,800 ft [68] or 1,120 hp at 18,500 ft | 1,125 with 44.5" Hg at 15,500 ft (15 Min) [69] | ||
Performance | |||||
Maximum speed | 364 mph at 19,900 ft (585 km/h) [70] | 370 mph at 20,400 (595 kph) [71][72] | 378 mph (608 km/h) at 5,000 m (16,400 ft) | ||
Cruise speed | 302 mph (482 kph)[73] | 295 mph [74] | 288 mph (455 km/h)[75] | ||
Range | 700-1500 mi with drop tank (1k125-2,400 km) | 653 miles [76] | 745 mi (1,200 km) | ||
Service ceiling | 34,400 ft (10,500 m) | 34,400 ft (10,500 m) [77] | 38,000 ft [78] | ||
Climb rate | 2,000 ft/min @ military power or 3,220 ft/min @ WEP | 3,300 ft/min [79] @ WEP | 2,300 ft/min @ Military power 3,520 ft/min @ WEP | ||
Wing loading | 35.2 lb / ft ² | 33.9 lb/ft² | 31.36 lb/ft² (159.9 kg/m²) [80] | ||
Power/mass | 0.15 hp/lb (245 W/kg) - 0.16 at WEP | 0.16 hp/lb - 0.18 at WEP | 0.16 hp/lb (260 W/kg) - 0.17 at WEP | ||
Armament | |||||
|
|
|
Seamless Wikipedia browsing. On steroids.
Every time you click a link to Wikipedia, Wiktionary or Wikiquote in your browser's search results, it will show the modern Wikiwand interface.
Wikiwand extension is a five stars, simple, with minimum permission required to keep your browsing private, safe and transparent.