Difference between revisions of "P-59A"

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{{Specs-Card
 
{{Specs-Card
 
|code=p-59a
 
|code=p-59a
 +
|images={{Specs-Card-Image|GarageImage_{{PAGENAME}}.jpg}}
 
|market=P-59A (USA)
 
|market=P-59A (USA)
 
}}
 
}}
  
 
== Description ==
 
== Description ==
<!--In the description, the first part should be about the history of and the creation and combat usage of the aircraft, as well as its key features. In the second part, tell the reader about the aircraft in the game. Insert a screenshot of the vehicle, so that if the novice player does not remember the vehicle by name, he will immediately understand what kind of vehicle the article is talking about.-->
+
<!-- ''In the description, the first part should be about the history of and the creation and combat usage of the aircraft, as well as its key features. In the second part, tell the reader about the aircraft in the game. Insert a screenshot of the vehicle, so that if the novice player does not remember the vehicle by name, he will immediately understand what kind of vehicle the article is talking about.'' -->
[[File:GarageImage_{{PAGENAME}}.jpg|420px|thumb|left]]
+
At the early stages of World War II in 1941, Major General Henry H. "Hap" Arnold was invited to attend a demonstration of the United Kingdom's Gloster E.28/39, the first British jet aircraft. Impressed with what he saw, he requested a copy of the blueprints to the Power Jets W.1 turbojet engine and received them along with a Whittle W.1X turbojet and drawings for the more powerful W.2B/23 engine. All of this was handed over to General Electric for them to produce a U.S. version of the engine. Next, Bell Aircraft Corporation was approached to build a fighter which would utilize this new jet. Accepting the challenge, Bell started by modifying a version of its P-63 Kingcobra propeller-powered fighter.
{{break}}
+
 
The '''{{Specs|name}}''' is a gift rank {{Specs|rank}} American jet fighter {{Battle-rating}}. It was introduced during [[Update 1.89 "Imperial Navy"]] as a reward for the [[wt:en/news/6293/current|Operation H.E.A.T event]]. It is currently rare vehicle and is obtainable through the [https://trade.gaijin.net/? Gaijin Marketplace].
+
To accommodate the new type of engines, the {{PAGENAME}} underwent some significant modifications such as a higher placed wing (mid-fuselage compared to the P-63's low-wing setup), extended tail and fuselage and widened body to accept the turbojet engines. The new {{PAGENAME}} was plagued with many problems (many of which were attributed to early turbojets themselves), though, in the fighter was tested by pilot Chuck Yeager who was thoroughly dissatisfied with the speed of the aircraft, however, he noted that the flight characteristics of the aircraft were amazingly smooth.
 +
 
 +
Introduced during [[Update 1.89 "Imperial Navy"]] as a reward for the [[wt:en/news/6293/current|2019 Operation H.E.A.T event]], the {{PAGENAME}} finds itself in a unique position as a jet fighter sitting at rank IV, though just having turbojets compared to opponents at its battle rating sporting propellers will not give it the sole advantage. Several turbo-props will be able to keep up; however, the manoeuvrability of this aircraft is where it shines and when the pilot utilizes rudder control and combat flaps, the {{PAGENAME}} can surprisingly outmanoeuvre many aircraft including British Spitfires. The 37 mm autocannon and the three 12.7 mm machine guns are sufficient enough to punch large holes through enemy aircraft or dismantle them piece-by-piece. Without any suspended ordnance, the {{PAGENAME}} will strictly be a fighter/bomber interceptor unless there is a corner of the map where the Airacomet can ground attack without the threat of ambush by enemy fighters as it will need to maintain its speed to be useful.
  
 
== General info ==
 
== General info ==
 
=== Flight performance ===
 
=== Flight performance ===
<!-- Describe how the aircraft behaves in the air. Speed, manoeuvrability, acceleration and allowable loads - these are the most important characteristics of the vehicle. -->
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{{Specs-Avia-Flight}}
The P-59A ''Airacomet'' is quite an unusual jet with a number of unique and quirky characteristics. Firstly, it has a very low battle rating considering it is a jet. This reason is due to how poor its performance is compared to every other jet and even worse than most super-props (P-51H, F8F-1B, Bf 109 K-4, G.56, I-225). Secondly, the aircraft is unbelievably maneuverable and able to out turn Spitfires at the BR with the correct usage of the combat flaps and rudder. These oddities make the ''Airacomet'' a very interesting plane to fly and is the complete opposite of 90% of jets the player might've flown before. The P-59 has excellent maneuverability and decent roll rate. However, the very terrible acceleration is something to keep an eye on, but in a straight line you will be able to catch other opponents. It will take a long time to get up to speed but sooner or later, you'll catch your opponent if they continue to go in a straight line.  
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<!-- ''Describe how the aircraft behaves in the air. Speed, manoeuvrability, acceleration and allowable loads - these are the most important characteristics of the vehicle.'' -->
 +
[[File:P-59A *kamikazi-kit 001.jpg|450px|thumb|right|Without having to worry about propeller clearance, the '''{{PAGENAME}}''' had stubby landing gear.]]
 +
The P-59A ''Airacomet'' is quite an unusual jet with a number of unique and quirky characteristics. Firstly, it has a very low battle rating considering it is a jet. The reason for this is due to how poor its performance is compared to every other jet and most super-props (P-51H, F8F-1B, Bf 109 K-4, G.56, I-225). Secondly, the aircraft is unbelievably manoeuvrable and able to out-turn Spitfires at the BR with the correct usage of the combat flaps and rudder. These oddities make the ''Airacomet'' a very interesting plane to fly and the complete opposite of 90% of jets the player might've flown before. The P-59 has excellent manoeuvrability and decent roll rate. The very terrible acceleration is something to keep an eye on, but in a straight line, you will be able to catch other opponents. It will take a long time to get up to speed, but sooner or later, you'll catch your opponent if they continue to fly in a straight line.
  
{| class="wikitable" style="text-align:center"
+
{| class="wikitable" style="text-align:center" width="70%"
|-
+
! rowspan="2" | Characteristics
! colspan="8" | Characteristics
 
|-
 
! colspan="8" | ''Stock''
 
|-
 
 
! colspan="2" | Max Speed<br>(km/h at 9,144 m)
 
! colspan="2" | Max Speed<br>(km/h at 9,144 m)
! rowspan="2" | Max altitude<br>(meters)
+
! rowspan="2" | Max altitude<br>(metres)
 
! colspan="2" | Turn time<br>(seconds)
 
! colspan="2" | Turn time<br>(seconds)
! colspan="2" | Rate of climb<br>(meters/second)
+
! colspan="2" | Rate of climb<br>(metres/second)
! rowspan="2" | Take-off run<br>(meters)
+
! rowspan="2" | Take-off run<br>(metres)
 
|-
 
|-
 
! AB !! RB !! AB !! RB !! AB !! RB
 
! AB !! RB !! AB !! RB !! AB !! RB
 
|-
 
|-
| 659 || 638 || {{Specs|ceiling}} || 20.9 || 21.4 || 16.1 || 15.3 || 457
+
! Stock
|-
+
| 659 || 638 || rowspan="2" | {{Specs|ceiling}} || 20.9 || 21.4 || 16.1 || 15.3 || rowspan="2" | 457
! colspan="8" | ''Upgraded''
 
|-
 
! colspan="2" | Max Speed<br>(km/h at 9,144 m)
 
! rowspan="2" | Max altitude<br>(meters)
 
! colspan="2" | Turn time<br>(seconds)
 
! colspan="2" | Rate of climb<br>(meters/second)
 
! rowspan="2" | Take-off run<br>(meters)
 
|-
 
! AB !! RB !! AB !! RB !! AB !! RB
 
 
|-
 
|-
| 723 || 690 || {{Specs|ceiling}} || 19.2 || 20.0 || 23.4 || 19.5 || 457
+
! Upgraded
 +
| 723 || 690 || 19.2 || 20.0 || 23.4 || 19.5
 
|-
 
|-
 
|}
 
|}
  
 
==== Details ====
 
==== Details ====
{| class="wikitable" style="text-align:center"
+
{| class="wikitable" style="text-align:center" width="50%"
 
|-
 
|-
! colspan="5" | Features
+
! colspan="6" | Features
 
|-
 
|-
! Combat flaps !! Take-off flaps !! Landing flaps !! Air brakes !! Arrestor gear
+
! Combat flaps !! Take-off flaps !! Landing flaps !! Air brakes !! Arrestor gear !! Drogue chute
 
|-
 
|-
| ✓ || ✓ || ✓ || X || X    <!-- ✓ -->
+
| ✓ || ✓ || ✓ || X || X || X    <!-- ✓ -->
 
|-
 
|-
 
|}
 
|}
  
{| class="wikitable" style="text-align:center"
+
{| class="wikitable" style="text-align:center" width="50%"
 
|-
 
|-
! colspan="5" | Limits
+
! colspan="7" | Limits
 
|-
 
|-
! rowspan="2" | Wing-break speed<br>(km/h)
+
! rowspan="2" | Wings (km/h)
! rowspan="2" | Gear limit<br>(km/h)
+
! rowspan="2" | Gear (km/h)
! rowspan="2" | Combat flaps<br>(km/h)
+
! colspan="3" | Flaps (km/h)
 
! colspan="2" | Max Static G
 
! colspan="2" | Max Static G
 
|-
 
|-
! + !! -
+
! Combat !! Take-off !! Landing !! + !! -
 
|-
 
|-
| {{Specs|destruction|constructions}} || {{Specs|destruction|chassis}} || 520 || ~10 || ~6
+
| {{Specs|destruction|body}} || {{Specs|destruction|gear}} || 495 || 460 || 290 || ~10 || ~6
 
|-
 
|-
 
|}
 
|}
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{| class="wikitable" style="text-align:center"
 
{| class="wikitable" style="text-align:center"
 
|-
 
|-
! colspan="4" | Optimal velocities
+
! colspan="4" | Optimal velocities (km/h)
 
|-
 
|-
! Ailerons<br>(km/h)
+
! Ailerons !! Rudder !! Elevators !! Radiator
! Rudder<br>(km/h)
 
! Elevators<br>(km/h)
 
! Radiator<br>(km/h)
 
 
|-
 
|-
 
| < 450 || < 420 || < 350 || N/A
 
| < 450 || < 420 || < 350 || N/A
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|}
 
|}
  
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==== Engine performance ====
 
{| class="wikitable" style="text-align:center"
 
{| class="wikitable" style="text-align:center"
 
|-
 
|-
! colspan="3" | Compressor (RB/SB)
+
! colspan="3" | Engine
 +
! colspan="4" | Aircraft mass
 +
|-
 +
! colspan="2" | Engine name || Number
 +
! colspan="2" | Empty mass || colspan="2" | Wing loading (full fuel)
 
|-
 
|-
! colspan="3" | Setting 1
+
| colspan="2" | General Electric J31-GE-3 || 2
 +
| colspan="2" | 3,710 kg || colspan="2" | 128 kg/m<sup>2</sup>
 
|-
 
|-
! Optimal altitude
+
! colspan="3" | Engine characteristics
! 100% Engine power
+
! colspan="3" | Mass with fuel (no weapons load) || rowspan="2" | Max Takeoff<br />Weight
! WEP Engine power
 
 
|-
 
|-
| 0 m || 750 kgf || 780 kgf
+
! Weight (each) || colspan="2" | Type
 +
! 8m fuel || 20m fuel || 29m fuel
 +
|-
 +
| 387 kg || colspan="2" | Centrifugal-flow turbojet
 +
| 3,974 kg || 4,328 kg || 4,593 kg || 5,820 kg
 +
|-
 +
! colspan="3" | {{Annotation|Maximum engine thrust @ 0 m (RB / SB)|The maximum thrust produced by each engine, while mounted in the aircraft. NOTE: Thrust varies significantly depending on speed & altitude.}}
 +
! colspan="4" | Thrust to weight ratio @ 0 m (105%)
 +
|-
 +
! Condition || 100% || 105%
 +
! 8m fuel || 20m fuel || 29m fuel || MTOW
 +
|-
 +
| ''Stationary'' || 750 kgf || 780 kgf
 +
| 0.39 || 0.36 || 0.34 || 0.27
 +
|-
 +
| ''Optimal'' || 750 kgf<br />(0 km/h) || 780 kgf<br>(0 km/h)
 +
| 0.39 || 0.36 || 0.34 || 0.27
 
|-
 
|-
 
|}
 
|}
  
 
=== Survivability and armour ===
 
=== Survivability and armour ===
<!-- Examine the survivability of the aircraft. Note how vulnerable the structure is and how secure the pilot is, whether the fuel tanks are armoured, etc. Describe the armour, if there is any, and also mention the vulnerability of other critical aircraft systems. -->
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{{Specs-Avia-Armour}}
 +
<!-- ''Examine the survivability of the aircraft. Note how vulnerable the structure is and how secure the pilot is, whether the fuel tanks are armoured, etc. Describe the armour, if there is any, and also mention the vulnerability of other critical aircraft systems.'' -->
  
 
* 6.35 mm steel plate mounted behind the armaments
 
* 6.35 mm steel plate mounted behind the armaments
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* 2 x 6.35 steel plates behind the pilot seat
 
* 2 x 6.35 steel plates behind the pilot seat
 
* 9.5 mm steel plate mounted behind the pilot's head
 
* 9.5 mm steel plate mounted behind the pilot's head
 +
 +
As an early jet fighter, common carryovers from the propeller-driven aircraft were found in the {{PAGENAME}} which were eliminated in later aircraft in favour of more fuel or heavier suspended armaments. It was standard to envelop the pilot with armoured plates especially in a fighter such as the Airacomet to protect from defensive fire or anti-aircraft shrapnel. To protect the pilot from attacks from the front, a 6.35 mm steel plate was placed both behind the offensive weapons and in front of the instrument panel in the cockpit. A 38 mm bulletproof glass was installed in the front windshield. Three different armoured plates were placed behind the pilot's seat and headrest and were of varying thicknesses of 6.35 mm and 9.5 mm.
 +
 +
As the {{PAGENAME}} struggles for speed, it may have been a better option to sacrifice all of the armour but the bulletproof windshield in order to allow for the extra speed due to the weight savings. Unfortunately, this would not be realized until later jet fighters made this transition to forgo most if not all protective armour to squeeze out more power or more ordnance.
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 +
=== Modifications and economy ===
 +
{{Specs-Economy}}
  
 
== Armaments ==
 
== Armaments ==
 +
{{Specs-Avia-Armaments}}
 
=== Offensive armament ===
 
=== Offensive armament ===
<!--Describe the offensive armament of the aircraft, if any. Describe how effective the cannons and machine guns are in a battle, and also what belts or drums are better to use. If there is no offensive weaponry, delete this subsection.-->
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{{Specs-Avia-Offensive}}
{{main|M10 (37 mm)|Browning M2 (12.7 mm)}}
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<!-- ''Describe the offensive armament of the aircraft, if any. Describe how effective the cannons and machine guns are in a battle, and also what belts or drums are better to use. If there is no offensive weaponry, delete this subsection.'' -->
 +
[[File:P-59A Camo skin sln2006.jpg|450px|thumb|right|The '''{{PAGENAME}}''' with the "Fear the Shadows" camouflage. Due to the camouflage being nearly pitch black, it can be next to impossible to spot the plane in night battles.]]
 +
{{main|M10 (37 mm)|M2 Browning (12.7 mm)}}
  
 
The '''''{{PAGENAME}}''''' is armed with:
 
The '''''{{PAGENAME}}''''' is armed with:
  
 
* 1 x 37 mm M10 cannon, nose-mounted (45 rpg)
 
* 1 x 37 mm M10 cannon, nose-mounted (45 rpg)
* 3 x 12.7 mm Browning M2 machine guns, nose-mounted (600 rpg = 1,800 total)
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* 3 x 12.7 mm M2 Browning machine guns, nose-mounted (200 rpg = 600 total)
 +
 
 +
As found on earlier Bell fighters (P-39 and P-63), 37 mm autocannons tended to be heavy hitters with well-placed hits leaving only remnants of enemy fighters or bisecting bomber wings or fuselage. Though a heavy hitter, it is not without faults as it tends to work best in close range (>300 m) and when aircraft are showing the most surface area. Tail-shots have a bad propensity to ''spark'' or hit, but leave minimal or no damage (ricochet shot). Best chances for taking out an aircraft with this cannon is to wait until the enemy begins to manoeuvre and expose much of its wing or fuselage surface area, giving the 37 mm round the best chance to hit as close to perpendicular as possible thus avoiding sparking or a ricochet shot.
 +
 
 +
The 12.7 mm machine guns, though not as powerful as an autocannon round, can find their way to putting nice sized holes in engines, control surfaces, fuel tanks and pilots. Since the {{PAGENAME}} has all of its armament located in the nose of the aircraft, the pilot does not have to worry about calculating for convergence and the three machine guns effectively work as a shotgun and sends out a spread pattern of 12.7 mm bullets towards the enemy aircraft. Again, close in, these machine guns can be devastating, though definitely remain an option for longer range shots, however, their punch does start to drop off after a while. It is best to fire the 37 mm autocannon and the 12.7 mm machine guns separately due to the differences in velocity and bullet drop as the heavier 37 mm round will lose velocity quicker and drop sooner than the 12.7 mm rounds and with only 45 rounds to work with, the pilot will not want to squander the precious ammunition which will not land in the same location where the 12.7 mm rounds will hit.
  
 
== Usage in battles ==
 
== Usage in battles ==
<!-- Describe the tactics of playing in an aircraft, the features of using aircraft in a team and advice on tactics. Refrain from creating a "guide" - do not impose a single point of view, but instead, give the reader food for thought. Examine the most dangerous enemies and give recommendations on fighting them. If necessary, note the specifics of the game in different modes (AB, RB, SB). -->
+
<!-- ''Describe the tactics of playing in the aircraft, the features of using aircraft in a team and advice on tactics. Refrain from creating a "guide" - do not impose a single point of view, but instead, give the reader food for thought. Examine the most dangerous enemies and give recommendations on fighting them. If necessary, note the specifics of the game in different modes (AB, RB, SB).'' -->
There are three ways the player can use the P-59A; energy fighter, highly manoeuvrable dogfighter, or interceptor.
+
[[File:P-59A mrlight013 001.png|450px|thumb|right.]]
 +
There are multiple ways the player can use the P-59A; energy fighter, highly manoeuvrable dogfighter, interceptor, or boom and zoomer.
  
 
=== Energy Fighter ===
 
=== Energy Fighter ===
  
* The P-59A is a decent energy fighter that can be used versus enemies with worse energy retention such as most twin-engine fighters and the Fw 190's, but should not be flown this way versus aircraft like Spitfires, 109's and Ki-84's, all of which have far superior energy retention, climb rates and speeds than you do. You should only try to out-stall an opponent when they are coming to you with an energy disadvantage, as the ''Airacomet'' has a relatively high stall speed and mediocre climb rate. It is to be noted however that the aircraft can very easily recover from a full stall but is a little unstable after having to pull the nose down.
+
* The P-59A is a decent energy fighter that can be used versus enemies with worse energy retention, such as most twin-engine fighters and the Fw 190's. This tactic should not be flown versus aircraft like Spitfires, 109's and Ki-84's, however. Many of these aircraft have superior energy retention, climb rates, and acceleration compared to the P-59A. You should only try to out-stall an opponent when they are coming to you with an energy disadvantage, as the ''Airacomet'' has a relatively high stall speed and mediocre climb rate. It is to be noted, however, that the aircraft can very easily recover from a full stall but is a little unstable after having to pull the nose down.
  
 
=== Dogfighter ===
 
=== Dogfighter ===
  
* The role that P-59A excels the most at is as a medium-altitude dogfighter that can use its unbelievable manoeuvrability to the fullest. The only things that can keep up to you in turns are Zero's, Reppu's and the occasional Ki-61, but you can outspeed all of them very easily due to their very low top-end speeds. It is important to know that you can only outturn Spitfires and Yak-3's with appropriate use of combat flaps and efficient application of the aircraft's solid rudder. A smart pilot will also use the aircraft's great roll rate to help manoeuvre around opponents. The close-range nature of dogfighting is also a boon to the P-59A because of the 37 mm cannon's mediocre muzzle velocity of 610 m/s compared to the Browning's 900 m/s, and at close range, you do not have to worry about that difference.
+
* The role that P-59A excels the most at is as a medium-altitude dogfighter. This role will allow you to use its unbelievable manoeuvrability to the fullest. The only aircraft that can keep up to you in turns are the Zero's, the Reppu's and the occasional Ki-61. You can out-speed all of them very easily due to their very low top-end speeds, however. It is important to know that you can only out-turn Spitfires and Yak-3's with appropriate use of combat flaps and efficient application of the aircraft's solid rudder. A smart pilot will also use the aircraft's great roll rate to help manoeuvre around opponents. The close-range nature of dogfighting is also a boon to the P-59A because of the 37 mm cannon's mediocre muzzle velocity of 610 m/s compared to the Browning's 900 m/s, and at close range, you do not have to worry about that difference.
  
 
=== Interceptor ===
 
=== Interceptor ===
  
* The P-59A is a very solid interceptor that can easily climb up to bomber altitude and shred their airframes with the potent armament layout at its disposal. Be sure to steer clear of the gunners, as even though your airframe can take a beating, its never a good idea to tail a bomber with at least decent defensive armaments. One should come in at an oblique angle and aim at the wings and engines.
+
* The P-59A is a very solid interceptor that can easily climb up to bomber altitude and shred their airframes with the potent armament layout at its disposal. Be sure to steer clear of the gunners, as even though your airframe can take a beating, its never a good idea to tail a bomber with at least decent defensive armaments. One should come in at an oblique angle and aim at the wings and engines of the enemy.
 +
 
 +
=== Boom and Zoom ===
 +
 
 +
* Boom and Zoom tactics can be utilized by the P-59A against opponents that may present a challenge in a turning fight. Due to the P-59A lack of prop drag it has decent straight line energy retention. Although this tactic does not leverage the primary strengths of the P-59A it is a very useful fall back when fighting enemies such as the A6M5 Zero or the A7M2/A7M1 Reppu.
  
 
=== Specific enemies worth noting: ===
 
=== Specific enemies worth noting: ===
  
* [[A6M5]]. The dreaded Zero is a thing to be feared and is one of very few aircraft that can turn with you. Under no circumstances are you to engage a Zero in a manoeuvring fight, as it'll turn circles around you. The Zero is plagued by several downfalls though, namely an extremely weak airframe and slow top-end speeds, and you can take advantage of these.
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* [[A6M5]]. The dreaded Zero is an aeroplane to be feared while playing the P-59A, due to the fact that it is one of very few aircraft that can turn with you. Under no circumstances are you to engage a Zero in a manoeuvring fight, as it'll turn circles around you. The Zero is plagued by several downfalls though, namely an extremely weak airframe and slow top-end speeds, and you can take advantage of both of these.
 
* [[A7M2]]/[[A7M1 (NK9H)|A7M1]]. Being a cousin of the legendary Zero, you can expect a similar flight style between the two. The Reppu keeps the manoeuvrability of its cousin while improving speed, acceleration and armaments. Approach a Reppu the same way you would approach the Zero.
 
* [[A7M2]]/[[A7M1 (NK9H)|A7M1]]. Being a cousin of the legendary Zero, you can expect a similar flight style between the two. The Reppu keeps the manoeuvrability of its cousin while improving speed, acceleration and armaments. Approach a Reppu the same way you would approach the Zero.
 
=== Modules ===
 
{| class="wikitable"
 
! Tier
 
! colspan="2" | Flight performance
 
! Survivability
 
! Weaponry
 
|-
 
| I
 
| Fuselage repair
 
|
 
|
 
| Offensive 12 mm
 
|-
 
| II
 
|
 
| Compressor
 
| Airframe
 
| New 12 mm MGs
 
|-
 
| III
 
| Wings repair
 
| Engine
 
|
 
| Offensive 37 mm
 
|-
 
| IV
 
| G-suit
 
|
 
| Cover
 
| New 37 mm cannons
 
|-
 
|}
 
Being a premium, all modules are unlocked upon acquiring the vehicle.
 
 
The recommended belts to use are ''Tracers'' for the Brownings and either ''Default'' or ''Universal'' for the 37 mm cannon.
 
  
 
=== Pros and cons ===
 
=== Pros and cons ===
<!-- Summarise and briefly evaluate the vehicle in terms of its characteristics and combat effectiveness. Mark its pros and cons in the bulleted list. Try not to use more than 6 points for each of the characteristics. Avoid using categorical definitions such as "bad", "good" and the like - use substitutions with softer forms such as "inadequate" and "effective". -->
+
<!-- ''Summarise and briefly evaluate the vehicle in terms of its characteristics and combat effectiveness. Mark its pros and cons in the bulleted list. Try not to use more than 6 points for each of the characteristics. Avoid using categorical definitions such as "bad", "good" and the like - use substitutions with softer forms such as "inadequate" and "effective".'' -->
 +
[[File:P-59A *kamikazi-kit 002.jpg|450px|thumb|right|]]
  
 
'''Pros:'''
 
'''Pros:'''
Line 191: Line 187:
 
* Slow for a jet, unable to keep up with most super-props
 
* Slow for a jet, unable to keep up with most super-props
 
* Mediocre acceleration due to being an early jet aircraft
 
* Mediocre acceleration due to being an early jet aircraft
* 37 mm cannon rounds can be less effective and easily deflected dut to the angle of attack
+
* 37 mm cannon rounds can be less effective and easily deflected due to the angle of attack
 
* Large target when coming in from above or below
 
* Large target when coming in from above or below
 
* Wings are littered with fuel tanks
 
* Wings are littered with fuel tanks
 +
* No suspended ordnance for dedicated ground-attack
  
 
== History ==
 
== History ==
<!--Describe the history of the creation and combat usage of the aircraft in more detail than in the introduction. If the historical reference turns out to be too long, take it to a separate article, taking a link to the article about the vehicle and adding a block "/ History" (example: <nowiki>https://wiki.warthunder.com/(Vehicle-name)/History</nowiki>) and add a link to it here using the <code>main</code> template. Be sure to reference text and sources by using <code><nowiki><ref></ref></nowiki></code>, as well as adding them at the end of the article with <code><nowiki><references /></nowiki></code>. This section may also include the vehicle's dev blog entry (if applicable) and the in-game encyclopedia description (under <code><nowiki>=== In-game description ===</nowiki></code>, also if applicable).-->
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<!-- ''Describe the history of the creation and combat usage of the aircraft in more detail than in the introduction. If the historical reference turns out to be too long, take it to a separate article, taking a link to the article about the vehicle and adding a block "/History" (example: <nowiki>https://wiki.warthunder.com/(Vehicle-name)/History</nowiki>) and add a link to it here using the <code>main</code> template. Be sure to reference text and sources by using <code><nowiki><ref></ref></nowiki></code>, as well as adding them at the end of the article with <code><nowiki><references /></nowiki></code>. This section may also include the vehicle's dev blog entry (if applicable) and the in-game encyclopedia description (under <code><nowiki>=== In-game description ===</nowiki></code>, also if applicable).'' -->The P-59A Airacomet was a prototype jet-powered fighter intended to serve in the USAF. The P-59A was the first jet fighter aircraft to fly in the USA, though it would never enter service. Because of the P-59's disappointing flight performance, the USAF cut the order from 100 aircraft to 50 and relegated the remaining aircraft to training duties. Despite this, the P-59A was instrumental in providing the air force with knowledge regarding jet operations, which would pave the way for future jet aircraft such as the F-80 and F-86.
  
The P-59A Airacomet is the very first US jet-powered fighter, whose development began back in 1941, when the USA received the schematics for the Whittle turbojet engine from Great Britain. It was the Bell Aircraft Corporation that signed the contract to assemble the New World’s first jet-powered fighter. Despite the unicity of the task at hand and lack of experience in the development of jet-powered aircraft, the company was planning on launching a serial production of the fighter as opposed to just building a test unit. The first aircraft was assembled as early as 1942 and underwent testing until 1944 – the engineers were struggling to solve a multitude of technical issues caused by the new engines. Once the majority of the engine-tuning problems were fixed, it turned out that the flight characteristics of the new vehicle couldn’t surpass even those of serially produced piston-engine models. Nonetheless, a small series of P-59s was manufactured – a total of 66 aircraft branded “Airacomets”. The US jet-powered firstling failed to impress the military, and soon all combat aircraft were replaced with P-80 Shooting Stars.
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In 1941, Major General Henry "Hap" Arnold of the USAF learned of the British jet-engine development program after witnessing taxi tests of the Gloster E.28/39, the first British jet-engined aircraft to take flight. Arnold arranged for the acquisition of the blueprints of the engine, the Power Jets W.1, and had a complete engine shipped over to the United States for evaluation. General Electric received a contract to build the engine as the General Electric I.A, while Bell Aircraft received a contract to build a fighter around the engine: as a result, the P-59A was born.
  
''- From [[wt:en/news/6295/current|Devblog]]''
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While it received the same 'P-59' designation as a prior unrelated piston-engined fighter design (mainly as a disinformation tactic), the P-59A was the first American jet-engined fighter to fly. In terms of design, the aircraft was distinguished by its engines: two General Electric J-31s, a derivative of the General Electric I.A. Aside from the engines, the P-59A wasn't too unique in any way; it had a mid-mounted straight wing and Bell's trademark tricycle landing gear. The aircraft were fitted with a single 37 mm cannon and three 12.7 mm Browning machine guns as armament.
  
The Bell XP-59A Airacomet was America's first jet aircraft. For that reason alone, the aircraft is of historic significance. Although it never fired a shot in anger during World War II, it was nevertheless important in that it provided a lot of important data on the care and maintenance of jet aircraft, which proved invaluable when more advanced jet fighters came in to service.
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After being built secretly at a disused car factory, the first P-59A prototype flew in early October of 1942. Over the coming months, the P-59A proved to be quite disappointing, as the aircraft suffered issues with its engines and with its lateral stability, making it impossible to aim the cannons at high speeds. The P-59A was also loaned to the British in exchange for a newly-produced Gloster Meteor, who found that the P-59A underperformed compared to their Meteors. As a result, the original order for 100 P-59As was cut in half, with the remaining aircraft used as training aircraft to familiarize pilots with jet combat. While unsuccessful as a fighter, the P-59A paved the way for the development of future jet aircraft, including the Lockheed P-80, America's first operational jet fighter.
  
The history of the Airacomet is one of the most interesting of any of the aircraft we have encountered so far in this series. For that, we must go back a bit and start with the Bell XP-52.
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=== [[wt:en/news/6295/current|Devblog]] ===
 +
The P-59A Airacomet is the very first US jet-powered fighter, whose development began back in 1941, when the USA received the schematics for the Whittle turbojet engine from Great Britain. It was the Bell Aircraft Corporation that signed the contract to assemble the New World's first jet-powered fighter. Despite the unicity of the task at hand and lack of experience in the development of jet-powered aircraft, the company was planning on launching a serial production of the fighter as opposed to just building a test unit. The first aircraft was assembled as early as 1942 and underwent testing until 1944 – the engineers were struggling to solve a multitude of technical issues caused by the new engines. Once the majority of the engine-tuning problems were fixed, it turned out that the flight characteristics of the new vehicle couldn't surpass even those of serially produced piston-engine models. Nonetheless, a small series of P-59s was manufactured – a total of 66 aircraft branded "Airacomets". The US jet-powered firstling failed to impress the military, and soon all combat aircraft were replaced with P-80 Shooting Stars.
  
The Bell XP-52 was an unorthodox fighter project that arose out of a USAAC competition held in the winter of 1939 for a fighter that would be much more effective than any extant--with a top speed, rate of climb, maneuverability, armament, and pilot visibility, all of which would be far superior to those of any existing fighter. In addition, the fighter was required to have a low initial cost and had to be easy and inexpensive to maintain.
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== Media ==
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<!-- ''Excellent additions to the article would be video guides, screenshots from the game, and photos.'' -->
  
The USAAC issued its requirements to the industry in the form of Request for Data R-40C. No less than 50 responses came in. Among these was the Model 16, which the Bell company had developed some months earlier. Bell was famous for submitting unconventional designs, and the Model 16 was no exception. It had a round, barrel-shaped fuselage with the pilot seated in the nose and a 1250 hp Continental XIV-1430-5 liquid-cooled twelve-cylinder inverted vee engine mounted behind the pilot and driving a pair of contrarotating coaxial propellers operating in pusher fashion. The wing was mounted in mid-fuselage position, and was swept back at an angle of about 20 degrees. Twin booms were mounted about one-third of the way along the wings outboard of the fuselage. The horizontal tailplane at the rear connected the two booms. A tricycle landing gear was to be fitted, with the nosewheel retracting into the fuselage and the mainwheels retracting into the booms. Two 20-mm cannon were to be mounted in the lower fuselage, and three 0.50-in machine guns were to be mounted in the front of each of the twin booms.
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;Skins
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* [https://live.warthunder.com/feed/camouflages/?vehicle=p-59a Skins and camouflages for the {{PAGENAME}} from live.warthunder.com.]
  
One unusual feature of the Model 16 was the presence of an engine radiator cooing air intake mounted in the extreme nose. Nose-mounted air intakes were features which were later to be seen in jet-powered fighters.
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;Images
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</gallery>
  
By the end of 1940, the Army purchasing commission had chosen six of the submissions for further development. Among them was the Bell Model 16. A single prototype was ordered under the designation XP-52. However this order was canceled on November 25, 1941, before anything could be built. It was replaced by an order for another Bell design, based on the XP-52 but equipped with a more-powerful Pratt & Whitney R-2800-52 air-cooled radial engine rated at 2000 hp and driving a pair of three-bladed contrarotating pusher propellers. This aircraft was assigned the designation XP-59 by the US Army. The XP-59 had more-or-less the same unorthodox configuration as that of the XP-52, complete with the unusual nose intake. Estimated maximum speed was 450 mph at 22,000 feet, and service ceiling was to have been 38,000 feet.
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;Videos
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{{Youtube-gallery|kBC3HJaagyg|'''P-59 Airacomet - Everything You Need to Know''' - ''WhooptieDo''|bMBeS_tZRSI|'''P-59A Airacomet - Early Look & Review''' - ''BaconGaming''|CKMPev8s8QM|'''P-59A Airacomet "The Most OP Thing I Have Flown In Years!"''' - ''Bo Time Gaming''}}
  
In the meantime, something happened in England which was to alter radically the fate of the XP-59. In April of 1941, Major-General H. H. Arnold paid a visit to Britain. While there, he was shown the top-secret Gloster E-28/39 jet-powered aircraft, powered by one of Wing Commander Frank Whittle's W2B centrifugal turbojets. Work on jet-powered aircraft was well-advanced in Britain, and similar projects were underway in both Germany and Italy. The USA was clearly behind other major aircraft manufacturing nations in this revolutionary new form of aircraft propulsion. General Arnold was so impressed by the potentiality of this new technology that he immediately asked if American engineers could be given the blueprints of the new jet engine so that they could manufacture it under license in the USA. Since the US government was being so generous with its Lend-Lease aid to Britain, the RAF readily agreed.
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== See also ==
 
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<!-- ''Links to the articles on the War Thunder Wiki that you think will be useful for the reader, for example:''
On September 4, 1941, at a meeting at Wright Field, General Arnold asked the General Electric Corporation of Schenectady, New York to act as the prime American contractor for license production of the British jet engine. General Electric was selected for this work because of the company's extensive experience with turbines for various industrial and aviation applications. Fifteen jet engines were ordered. This work was to be carried out under the utmost secrecy.
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* ''reference to the series of the aircraft;''
 
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* ''links to approximate analogues of other nations and research trees.'' -->
The very next day, Bell Aircraft of Buffalo, New York was approached and asked if it would build a fighter aircraft powered by the new General Electric jet engines. The choice of Bell as prime contractor for the manufacture of the first American jet fighter is sort of curious. Some have suggested that Bell was chosen because, of all the primary aircraft manufacturers in the USA, it had the least work to do in building aircraft vital for the war effort. Others have suggested that Bell was chosen because of its flair for imaginative design. Still others claim that Bell was chosen by General Arnold for this assignment primarily because of its proximity to the General Electric plant, a primary concern if strict secrecy was to be maintained. Perhaps all of these factors played a role.
 
 
 
Bell accepted the assignment, and agreed to build three aircraft. They accepted a deadline to complete the first prototype eight months after signing the contract on September 30, 1941. The serial numbers of the three prototypes were to be 42-108784/108786.
 
 
 
In order to provide for strict secrecy, some rather extreme measures were taken. In order to provide a cover, the Bell jet fighter project was assigned the designation XP-59A. This was done in the hope that even if Axis intelligence were to get wind of the XP-59A project, they would mistakenly think that it was just an adaptation of the totally-unrelated XP-59 piston-engined pusher fighter. At this time, Bell engineers were already hard at work on the XP-59 pusher, but work on this project was quietly abandoned in the next couple of months as work on the jet fighter got under way. The XP-59 project was officially cancelled on December 1, 1941.
 
 
 
The General Electric jet engine was assigned the cover designation I-A, in the hope that enemy intelligence might mistake it for a new turbosupercharger.
 
 
 
So the XP-59A and its jet engines were an early example of a "black" project. Many more such "black" projects were to follow in later years.
 
 
 
With the XP-59A project being given the highest priority, work proceeded very rapidly. Since the General Electric jet engines were being designed and built in parallel with the XP-59A, Bell engineers had little or no knowledge about performance data of the engines, so they adopted a fairly conservative design approach. Within two months after the initial order, Bell engineers had submitted a design for a fairly conventional aircraft, with a cantilever, laminar-flow, mid-mounted wing and a fully-retractable tricycle landing gear. The aircraft was fitted with two 1400 lb. st. General Electric I-A jet engines, one mounted on either side of the fuselage under the wing roots. The aircraft had a high tailplane, well out of the way of the turbojet exhausts. It was fitted with a pressurized cockpit, still a rather unusual feature for the time. Access to the cockpit was through a side-hinged canopy. The fuselage was to be built in two sections, the forward section comprising armament bay and cabin, and the rear section being of stressed-skin semi-monocoque construction. All control surfaces were fabric covered and manually-operated, the ailerons being of the pressure-balance type with pressure seals. The aircraft was fitted with aerodynamically-balanced, fabric-covered flaps located inboard of the ailerons. Although the XP-59A was primarily viewed as a test-bed for jet engines, the USAAF also viewed it as a potential combat aircraft, and it was to carry a nose-mounted armament of two 37-mm cannon with 44 rpg.
 
 
 
The USAAF approved the initial design, and construction of the three prototypes got underway on January 9, 1942.
 
  
Without even waiting for the flight of the first XP-59A prototype, the USAAF ordered thirteen service test YP-59As in March of 1942. Serial numbers of the YP-59As were 42-108771/108783. These were to be powered by improved versions of the General Electric engine, the I-16 (later designated J-31) rated at 1650 lb. st. each. They were to have rearward-sliding cockpit canopies in place of the hinged canopies of the prototypes.
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;Related development
  
The first XP-59A prototype was ready by the late summer of 1942, and was ferried by rail out to Muroc Dry Lake, California (now Edwards AFB) on September 12, 1942. Once it arrived in California, it was fitted with a dummy propeller attached to its nose, just in case the curious might see it and start asking why this aircraft didn't have a propeller. On October 1, 1942, Bell's test pilot Robert Stanley was undergoing some high-speed taxiing trials with the XP-59A when the aircraft "inadvertently" became airborne for a short time. It made its first official flight the next day, with a USAAF pilot at the controls. This was remarkably rapid progress, the first flight of the prototype taking place only 13 months after the contract had first been awarded. The XP-59A weighted 7320 pounds empty and 12,562 pounds maximum loaded. Wingspan was 45 feet 6 inches, length was 28 feet 2 inches, height was 12 feet 4 inches, and wing area was 386 square feet.
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* Bell [[P-39 (Family)|P-39]] Airacobra
 +
* Bell [[P-63 (Family)|P-63]] Kingcobra
  
As might be expected for such a revolutionary system of aircraft propulsion, there were serious problems right from the start. The jet engines were too heavy in relation to the amount of power they could develop, and their exhaust was so hot that the turbine blades regularly overheated and often broke off with catastrophic results. The maximum speed was 404 mph at 25,000 feet, somewhat below expectations. The engine installation was found to result in an inordinate amount of aerodynamic interference, and the aircraft was subject to severe directional snaking, making it a poor gun platform. Nevertheless, work on the P-59 continued unabated, and remedies were eventually found for its long list of faults.
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;Aircraft of comparable role, configuration and era
  
The second XP-59A flew on February 15, 1943 and the third late in April.
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* de Havilland [[Vampire FB 5|Vampire]]
 
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* Gloster [[Meteor (Family)|Meteor]]
The first YP-59A reached Muroc in June of 1943, and the USAAF gave the aircraft the name *Airacomet*. The first YP-59A flew in August of 1943. The YP-59A had more powerful 1650 lb. st. General Electric I-16 (J31) turbojets. However, the YP-59A showed little improvement in performance over the XP-59A. Empty weight increased to 7626 pounds, and maximum speed was a disappointing 409 mph at 35,000 feet. Service ceiling was 43,200 feet. The last four YP-59As had a heavier armament--three 0.50-inch machine guns and a single 37-mm cannon, which had been standardized for the production P-59A.
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* Lockheed [[F-80A-5|F-80]] Shooting Star
 
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* Messerschmitt [[Me 262 (Family)|Me 262]]
The third YP-59A (Ser No 42-22611) was shipped to Britain in exchange for the first production Gloster Meteor I. Upon arrival in England, it was assembled by Gloster at Moreton Vallance, where it was flown for the first time by a Bell test pilot on September 28, 1943. It was assigned the RAF serial number of RJ362/G. It was transferred to the Royal Aircraft Establishment at Farnborough on November 5, 1943. It was on the top-secret Jet Flight list (along with the Gloster E.28/39, the De Havilland Vampire, and the Gloster Meteor), but the Airacomet was flown very little because of unserviceability and the lack of spares. The RAF test pilots found the aircraft to be badly underpowered, with an unacceptably-long takeoff run. Like all other early jet-powered fighters, the Airacomet suffered from very poor engine acceleration.
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* Nakajima [[Kikka]]
 
 
In December of 1943, the US Navy got the eighth and ninth YP-59As (42-108778 and 42-100779) for use in tests. Some sources list their naval designation as being YF2L-1, which is sort of curious since the F2L designation was also used by a couple of Bell P-39Q Airacobras employed by the Navy as target aircraft. Perhaps this inconsistency was simply a part of the overall program of official deception, in the hope that enemy intelligence would mistakenly think that the jets were simply more naval Airacobras. In any case, the Airacomet was totally unsuited for carrier operations because of the poor view from its cockpit and the poor acceleration of its engines. In addition, the Airacomet suffered from a lack of adequate drag during landing approaches, so that there was a lot of "float" before touchdown when the power was cut. The lack of drag was primarily caused by the absence of dive brakes, which had been deliberately omitted because of the Airacomet's anticipated mediocre performance.
 
 
 
The last YP-59A had been delivered by the end of June 1944.
 
 
 
Shortly before the first flight of the XP-59A, the USAAF had placed an order for one hundred P-59A Airacomets. However, the performance of the YP-59A service test aircraft had proved to be rather disappointing, not even up to the standards of conventional piston-engined fighter aircraft already in service with the USAAF. It was considered rather unlikely that any appreciable improvements in the performance of the P-59 would be soon be forthcoming, and by the early fall of 1943 the Airacomet was no longer considered by the USAAF as being worthy of consideration as an operational combat type. The Airacomet was therefore relegated to the operational training role, and the P-59A order was halved on October 30, 1943.
 
 
 
The production P-59A differed very little from the YP-59A. Only the first twenty of the P-59A order were actually completed as P-59As. Serials were 44-22609/22628. Most of these P-59As were powered by a pair of 1650 lb. s.t. General Electric J31-GE-3 turbojets, although the last few were powered by uprated 2000 lb. st. J31-GE-5 turbojets. The J31-GE-5-powered P-59A had a maximum speed of 413 mph at 30,000 feet and 380 mph at 5000 feet. Range on internal fuel was 240 miles, and range with two 125-Imp. gall. drop tanks was 520 miles. An altitude of 10,000 feet could be reached in 3.2 minutes, and 20,000 feet in 7.4 minutes. Weights were 7950 pounds empty, 10,822 pounds loaded, 12,700 pounds maximum. Dimensions were wingspan 45 feet 6 inches, length 38 feet 10 inches, height 12 feet 4 inches, and wing area 385.8 square feet. Armament consisted of one 37-mm cannon and three 0.50-inch machine guns, all mounted in the nose. In addition, two 1000-pound bombs or eight 60-pound rockets could be carried on underwing racks.
 
 
 
The twenty-first and remaining twenty-nine Airacomets of the P-59A order were completed as P-59Bs. Serials were 44-22629/22658. They had the uprated J31-GE-5 jets of the later P-59As, but had internal fuel capacity increased by 55 Imp gall. Maximum range was increased to 950 miles. Empty weight of the P-59B was increased to 8165 pounds and normal and maximum loaded weights were 11,049 pounds and 13,700 pounds respectively. The last P-59B was delivered in May of 1945.
 
 
 
Most of the P-59s went to the 412th Fighter Group of the Fourth Air Force based at Muroc Dry Lake (later Edwards AFB), where they served in the training role. The Airacomets provided USAAF pilots and ground crews with valuable data about the difficulties and pitfalls involved in converting to jet aircraft. This information proved quite useful when more advanced jet fighters finally became available in quantity. A few P-59s were later modified and used as drone directors or manned target aircraft aircraft with a second cockpit installed forward of the main cockpit.
 
 
 
Although the Airacomet never saw service in its originally-intended role as a fighter aircraft, it nevertheless provided the USAAF with valuable orientation experience in the use of jet aircraft and furnished a nucleus of trained jet pilots.
 
 
 
The Airacomet was to have one other major impact on aviation history, one that is not generally recognized. Bell engineers undertook some initial work on a single-engined version of the Airacomet, which was designated XP-59B (not to be confused with the P-59B). It had a low-mounted wing and was to be powered by a single General Electric I-16 turbojet engine housed in the rear fuselage with an air inlet at the wing roots and an exhaust in the tail. However, the Buffalo plant was so busy with other projects that in late 1942 the USAAF transferred the preliminary drawings of the single-engined XP-59B to Lockheed, where it became the inspiration of the famed P-80 Shooting Star.
 
 
 
== Media ==
 
''Excellent additions to the article would be video guides, screenshots from the game, and photos.''
 
 
 
== See also ==
 
''Links to the articles on the War Thunder Wiki that you think will be useful for the reader, for example:''
 
 
 
* ''reference to the series of the aircraft;''
 
* ''links to approximate analogues of other nations and research trees.''
 
  
 
== External links ==
 
== External links ==
<!--Paste links to sources and external resources, such as:
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<!-- ''Paste links to sources and external resources, such as:''
 
* ''topic on the official game forum;''
 
* ''topic on the official game forum;''
* ''encyclopedia page on the aircraft;''
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* ''other literature.'' -->
* ''other literature.''-->
 
  
* [[wt:en/news/6295/current|[Development<nowiki>]</nowiki> P-59A Airacomet: One of Its Kind]]
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* [[wt:en/news/6295/current|[Development] P-59A Airacomet: One of Its Kind]]
* http://www.joebaugher.com/usaf_fighters/p59.html
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* [https://forum.warthunder.com/index.php?/topic/458555-bell-p-59a-aircomet/ Official data sheet - more details about the performance]
  
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{{AirManufacturer Bell}}
 
{{USA jet aircraft}}
 
{{USA jet aircraft}}
 
{{USA premium aircraft}}
 
{{USA premium aircraft}}

Latest revision as of 21:24, 28 September 2024

Introducing Wiki 3.0
P-59A
p-59a.png
GarageImage P-59A.jpg
P-59A
MARKET

Description

At the early stages of World War II in 1941, Major General Henry H. "Hap" Arnold was invited to attend a demonstration of the United Kingdom's Gloster E.28/39, the first British jet aircraft. Impressed with what he saw, he requested a copy of the blueprints to the Power Jets W.1 turbojet engine and received them along with a Whittle W.1X turbojet and drawings for the more powerful W.2B/23 engine. All of this was handed over to General Electric for them to produce a U.S. version of the engine. Next, Bell Aircraft Corporation was approached to build a fighter which would utilize this new jet. Accepting the challenge, Bell started by modifying a version of its P-63 Kingcobra propeller-powered fighter.

To accommodate the new type of engines, the P-59A underwent some significant modifications such as a higher placed wing (mid-fuselage compared to the P-63's low-wing setup), extended tail and fuselage and widened body to accept the turbojet engines. The new P-59A was plagued with many problems (many of which were attributed to early turbojets themselves), though, in the fighter was tested by pilot Chuck Yeager who was thoroughly dissatisfied with the speed of the aircraft, however, he noted that the flight characteristics of the aircraft were amazingly smooth.

Introduced during Update 1.89 "Imperial Navy" as a reward for the 2019 Operation H.E.A.T event, the P-59A finds itself in a unique position as a jet fighter sitting at rank IV, though just having turbojets compared to opponents at its battle rating sporting propellers will not give it the sole advantage. Several turbo-props will be able to keep up; however, the manoeuvrability of this aircraft is where it shines and when the pilot utilizes rudder control and combat flaps, the P-59A can surprisingly outmanoeuvre many aircraft including British Spitfires. The 37 mm autocannon and the three 12.7 mm machine guns are sufficient enough to punch large holes through enemy aircraft or dismantle them piece-by-piece. Without any suspended ordnance, the P-59A will strictly be a fighter/bomber interceptor unless there is a corner of the map where the Airacomet can ground attack without the threat of ambush by enemy fighters as it will need to maintain its speed to be useful.

General info

Flight performance

Max speed
at 9 144 m690 km/h
Turn time20 s
Max altitude13 000 m
Engine2 х General Electric J31-GE-3
TypeJet
Cooling systemAir
Take-off weight6 t
Without having to worry about propeller clearance, the P-59A had stubby landing gear.

The P-59A Airacomet is quite an unusual jet with a number of unique and quirky characteristics. Firstly, it has a very low battle rating considering it is a jet. The reason for this is due to how poor its performance is compared to every other jet and most super-props (P-51H, F8F-1B, Bf 109 K-4, G.56, I-225). Secondly, the aircraft is unbelievably manoeuvrable and able to out-turn Spitfires at the BR with the correct usage of the combat flaps and rudder. These oddities make the Airacomet a very interesting plane to fly and the complete opposite of 90% of jets the player might've flown before. The P-59 has excellent manoeuvrability and decent roll rate. The very terrible acceleration is something to keep an eye on, but in a straight line, you will be able to catch other opponents. It will take a long time to get up to speed, but sooner or later, you'll catch your opponent if they continue to fly in a straight line.

Characteristics Max Speed
(km/h at 9,144 m)
Max altitude
(metres)
Turn time
(seconds)
Rate of climb
(metres/second)
Take-off run
(metres)
AB RB AB RB AB RB
Stock 659 638 13000 20.9 21.4 16.1 15.3 457
Upgraded 723 690 19.2 20.0 23.4 19.5

Details

Features
Combat flaps Take-off flaps Landing flaps Air brakes Arrestor gear Drogue chute
X X X
Limits
Wings (km/h) Gear (km/h) Flaps (km/h) Max Static G
Combat Take-off Landing + -
845 390 495 460 290 ~10 ~6
Optimal velocities (km/h)
Ailerons Rudder Elevators Radiator
< 450 < 420 < 350 N/A

Engine performance

Engine Aircraft mass
Engine name Number Empty mass Wing loading (full fuel)
General Electric J31-GE-3 2 3,710 kg 128 kg/m2
Engine characteristics Mass with fuel (no weapons load) Max Takeoff
Weight
Weight (each) Type 8m fuel 20m fuel 29m fuel
387 kg Centrifugal-flow turbojet 3,974 kg 4,328 kg 4,593 kg 5,820 kg
Maximum engine thrust @ 0 m (RB / SB) Thrust to weight ratio @ 0 m (105%)
Condition 100% 105% 8m fuel 20m fuel 29m fuel MTOW
Stationary 750 kgf 780 kgf 0.39 0.36 0.34 0.27
Optimal 750 kgf
(0 km/h)
780 kgf
(0 km/h)
0.39 0.36 0.34 0.27

Survivability and armour

Crew1 person
Speed of destruction
Structural845 km/h
Gear390 km/h
  • 6.35 mm steel plate mounted behind the armaments
  • 6.35 mm steel plate in front of the pilot
  • 38 mm bulletproof glass (63°) mounted in the windshield
  • 2 x 6.35 steel plates behind the pilot seat
  • 9.5 mm steel plate mounted behind the pilot's head

As an early jet fighter, common carryovers from the propeller-driven aircraft were found in the P-59A which were eliminated in later aircraft in favour of more fuel or heavier suspended armaments. It was standard to envelop the pilot with armoured plates especially in a fighter such as the Airacomet to protect from defensive fire or anti-aircraft shrapnel. To protect the pilot from attacks from the front, a 6.35 mm steel plate was placed both behind the offensive weapons and in front of the instrument panel in the cockpit. A 38 mm bulletproof glass was installed in the front windshield. Three different armoured plates were placed behind the pilot's seat and headrest and were of varying thicknesses of 6.35 mm and 9.5 mm.

As the P-59A struggles for speed, it may have been a better option to sacrifice all of the armour but the bulletproof windshield in order to allow for the extra speed due to the weight savings. Unfortunately, this would not be realized until later jet fighters made this transition to forgo most if not all protective armour to squeeze out more power or more ordnance.

Modifications and economy

Repair cost
AB1 695 Sl icon.png
RB3 702 Sl icon.png
SB8 515 Sl icon.png
Crew training10 000 Sl icon.png
Experts290 000 Sl icon.png
Aces940 Ge icon.png
Research Aces960 000 Rp icon.png
Reward for battleAB / RB / SB
Talisman.png 2 × 90 / 210 / 530 % Sl icon.png
Talisman.png 2 × 166 / 166 / 166 % Rp icon.png
Modifications
Flight performance Survivability Weaponry
Mods aerodinamic fuse.png
Fuselage repair
Mods jet compressor.png
Compressor
Mods aerodinamic wing.png
Wings repair
Mods jet engine.png
Engine
Mods g suit.png
G-suit
Mods armor frame.png
Airframe
Mods armor cover.png
Cover
Mods ammo.png
bmg50_belt_pack
Mod arrow 0.png
Mods weapon.png
bmg50_new_gun
Mods ammo.png
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Armaments

Offensive armament

Ammunition45 rounds
Fire rate165 shots/min
Ammunition600 rounds
Fire rate750 shots/min
The P-59A with the "Fear the Shadows" camouflage. Due to the camouflage being nearly pitch black, it can be next to impossible to spot the plane in night battles.

The P-59A is armed with:

  • 1 x 37 mm M10 cannon, nose-mounted (45 rpg)
  • 3 x 12.7 mm M2 Browning machine guns, nose-mounted (200 rpg = 600 total)

As found on earlier Bell fighters (P-39 and P-63), 37 mm autocannons tended to be heavy hitters with well-placed hits leaving only remnants of enemy fighters or bisecting bomber wings or fuselage. Though a heavy hitter, it is not without faults as it tends to work best in close range (>300 m) and when aircraft are showing the most surface area. Tail-shots have a bad propensity to spark or hit, but leave minimal or no damage (ricochet shot). Best chances for taking out an aircraft with this cannon is to wait until the enemy begins to manoeuvre and expose much of its wing or fuselage surface area, giving the 37 mm round the best chance to hit as close to perpendicular as possible thus avoiding sparking or a ricochet shot.

The 12.7 mm machine guns, though not as powerful as an autocannon round, can find their way to putting nice sized holes in engines, control surfaces, fuel tanks and pilots. Since the P-59A has all of its armament located in the nose of the aircraft, the pilot does not have to worry about calculating for convergence and the three machine guns effectively work as a shotgun and sends out a spread pattern of 12.7 mm bullets towards the enemy aircraft. Again, close in, these machine guns can be devastating, though definitely remain an option for longer range shots, however, their punch does start to drop off after a while. It is best to fire the 37 mm autocannon and the 12.7 mm machine guns separately due to the differences in velocity and bullet drop as the heavier 37 mm round will lose velocity quicker and drop sooner than the 12.7 mm rounds and with only 45 rounds to work with, the pilot will not want to squander the precious ammunition which will not land in the same location where the 12.7 mm rounds will hit.

Usage in battles

right.

There are multiple ways the player can use the P-59A; energy fighter, highly manoeuvrable dogfighter, interceptor, or boom and zoomer.

Energy Fighter

  • The P-59A is a decent energy fighter that can be used versus enemies with worse energy retention, such as most twin-engine fighters and the Fw 190's. This tactic should not be flown versus aircraft like Spitfires, 109's and Ki-84's, however. Many of these aircraft have superior energy retention, climb rates, and acceleration compared to the P-59A. You should only try to out-stall an opponent when they are coming to you with an energy disadvantage, as the Airacomet has a relatively high stall speed and mediocre climb rate. It is to be noted, however, that the aircraft can very easily recover from a full stall but is a little unstable after having to pull the nose down.

Dogfighter

  • The role that P-59A excels the most at is as a medium-altitude dogfighter. This role will allow you to use its unbelievable manoeuvrability to the fullest. The only aircraft that can keep up to you in turns are the Zero's, the Reppu's and the occasional Ki-61. You can out-speed all of them very easily due to their very low top-end speeds, however. It is important to know that you can only out-turn Spitfires and Yak-3's with appropriate use of combat flaps and efficient application of the aircraft's solid rudder. A smart pilot will also use the aircraft's great roll rate to help manoeuvre around opponents. The close-range nature of dogfighting is also a boon to the P-59A because of the 37 mm cannon's mediocre muzzle velocity of 610 m/s compared to the Browning's 900 m/s, and at close range, you do not have to worry about that difference.

Interceptor

  • The P-59A is a very solid interceptor that can easily climb up to bomber altitude and shred their airframes with the potent armament layout at its disposal. Be sure to steer clear of the gunners, as even though your airframe can take a beating, its never a good idea to tail a bomber with at least decent defensive armaments. One should come in at an oblique angle and aim at the wings and engines of the enemy.

Boom and Zoom

  • Boom and Zoom tactics can be utilized by the P-59A against opponents that may present a challenge in a turning fight. Due to the P-59A lack of prop drag it has decent straight line energy retention. Although this tactic does not leverage the primary strengths of the P-59A it is a very useful fall back when fighting enemies such as the A6M5 Zero or the A7M2/A7M1 Reppu.

Specific enemies worth noting:

  • A6M5. The dreaded Zero is an aeroplane to be feared while playing the P-59A, due to the fact that it is one of very few aircraft that can turn with you. Under no circumstances are you to engage a Zero in a manoeuvring fight, as it'll turn circles around you. The Zero is plagued by several downfalls though, namely an extremely weak airframe and slow top-end speeds, and you can take advantage of both of these.
  • A7M2/A7M1. Being a cousin of the legendary Zero, you can expect a similar flight style between the two. The Reppu keeps the manoeuvrability of its cousin while improving speed, acceleration and armaments. Approach a Reppu the same way you would approach the Zero.

Pros and cons

P-59A *kamikazi-kit 002.jpg

Pros:

  • Unbelievable manoeuvrability for a jet
  • Solid armament layout centred entirely in the nose
  • Great roll rate
  • Sturdy airframe which can take a beating
  • Tricycle landing gear to help with high-speed landings
  • Access to premium rewards
  • Very low repair cost

Cons:

  • Slow for a jet, unable to keep up with most super-props
  • Mediocre acceleration due to being an early jet aircraft
  • 37 mm cannon rounds can be less effective and easily deflected due to the angle of attack
  • Large target when coming in from above or below
  • Wings are littered with fuel tanks
  • No suspended ordnance for dedicated ground-attack

History

The P-59A Airacomet was a prototype jet-powered fighter intended to serve in the USAF. The P-59A was the first jet fighter aircraft to fly in the USA, though it would never enter service. Because of the P-59's disappointing flight performance, the USAF cut the order from 100 aircraft to 50 and relegated the remaining aircraft to training duties. Despite this, the P-59A was instrumental in providing the air force with knowledge regarding jet operations, which would pave the way for future jet aircraft such as the F-80 and F-86.

In 1941, Major General Henry "Hap" Arnold of the USAF learned of the British jet-engine development program after witnessing taxi tests of the Gloster E.28/39, the first British jet-engined aircraft to take flight. Arnold arranged for the acquisition of the blueprints of the engine, the Power Jets W.1, and had a complete engine shipped over to the United States for evaluation. General Electric received a contract to build the engine as the General Electric I.A, while Bell Aircraft received a contract to build a fighter around the engine: as a result, the P-59A was born.

While it received the same 'P-59' designation as a prior unrelated piston-engined fighter design (mainly as a disinformation tactic), the P-59A was the first American jet-engined fighter to fly. In terms of design, the aircraft was distinguished by its engines: two General Electric J-31s, a derivative of the General Electric I.A. Aside from the engines, the P-59A wasn't too unique in any way; it had a mid-mounted straight wing and Bell's trademark tricycle landing gear. The aircraft were fitted with a single 37 mm cannon and three 12.7 mm Browning machine guns as armament.

After being built secretly at a disused car factory, the first P-59A prototype flew in early October of 1942. Over the coming months, the P-59A proved to be quite disappointing, as the aircraft suffered issues with its engines and with its lateral stability, making it impossible to aim the cannons at high speeds. The P-59A was also loaned to the British in exchange for a newly-produced Gloster Meteor, who found that the P-59A underperformed compared to their Meteors. As a result, the original order for 100 P-59As was cut in half, with the remaining aircraft used as training aircraft to familiarize pilots with jet combat. While unsuccessful as a fighter, the P-59A paved the way for the development of future jet aircraft, including the Lockheed P-80, America's first operational jet fighter.

Devblog

The P-59A Airacomet is the very first US jet-powered fighter, whose development began back in 1941, when the USA received the schematics for the Whittle turbojet engine from Great Britain. It was the Bell Aircraft Corporation that signed the contract to assemble the New World's first jet-powered fighter. Despite the unicity of the task at hand and lack of experience in the development of jet-powered aircraft, the company was planning on launching a serial production of the fighter as opposed to just building a test unit. The first aircraft was assembled as early as 1942 and underwent testing until 1944 – the engineers were struggling to solve a multitude of technical issues caused by the new engines. Once the majority of the engine-tuning problems were fixed, it turned out that the flight characteristics of the new vehicle couldn't surpass even those of serially produced piston-engine models. Nonetheless, a small series of P-59s was manufactured – a total of 66 aircraft branded "Airacomets". The US jet-powered firstling failed to impress the military, and soon all combat aircraft were replaced with P-80 Shooting Stars.

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See also

Related development
  • Bell P-39 Airacobra
  • Bell P-63 Kingcobra
Aircraft of comparable role, configuration and era

External links


Bell Aircraft Corporation
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