Boeing 737

From Wikipedia, the free encyclopedia
For variants of this aircraft, see Boeing 737 Classic, Boeing 737 Next Generation, and Boeing 737 MAX.

Boeing 737
South African Airlink Boeing 737-200 Advanced Smith.jpg
A Boeing 737-200, the first mass-produced 737 model, in operation with South African Airways in 2007
Role Narrow-body airliner
National origin United States
Manufacturer Boeing
First flight April 9, 1967;
54 years ago (1967-04-09)
Introduction February 10, 1968 (53 years ago) (1968-02-10), with Lufthansa
Status In service
Primary users Southwest Airlines
  • Ryanair
  • United Airlines
  • American Airlines
Produced 1966 (1966)–present
Number built 10,750 as of July 2021[1]
Variants Boeing T-43
Developed into
  • Boeing 737 Classic
  • Boeing 737 Next Generation
  • Boeing 737 MAX

The Boeing 737 is a narrow-body airliner produced by Boeing at its Renton Factory in Washington. Developed to supplement the Boeing 727 on short and thin routes, the twinjet retains the 707 fuselage cross-section and nose with two underwing turbofans. Envisioned in 1964, the initial 737-100 made its first flight in April 1967 and entered service in February 1968 with Lufthansa. The lengthened 737-200 entered service in April 1968. It evolved through four generations, offering several variants for 85 to 215 passengers.

The 737-100/200 original variants were powered by Pratt & Whitney JT8D low-bypass engines and offered seating for 85 to 130 passengers. Launched in 1980 and introduced in 1984, the 737 Classic -300/400/500 variants were upgraded with CFM56-3 turbofans and offered 110 to 168 seats. Introduced in 1997, the 737 Next Generation (NG) -600/700/800/900 variants have updated CFM56-7s, a larger wing and an upgraded glass cockpit, and seat 108 to 215 passengers. The latest generation, the 737 MAX, 737-7/8/9/10 MAX , powered by improved CFM LEAP-1B high bypass turbofans and accommodating 138 to 204 people, entered service in 2017. Boeing Business Jet versions are produced since the 737NG, as well as military models.

As of December 2019, 15,156 Boeing 737s have been ordered and 10,571 delivered. Initially, its main competitor was the McDonnell Douglas DC-9, followed by its MD-80/MD-90 derivatives. It was the highest-selling commercial aircraft until being surpassed by the competing Airbus A320 family in October 2019, but maintains the record in total deliveries. The 737 MAX, designed to compete with the A320neo, was grounded worldwide between March 2019 and November 2020 following two fatal crashes.[2]

Development[]

1964 concept with tail mounted engines
October 18, 1966, Jet aircraft patent, filed June 22, 1965, by John Steiner and Joe Sutter for Boeing
The 737-100 on its maiden flight, April 9, 1967

Initial design[]

Boeing had been studying short-haul jet aircraft designs, and saw a need for a new aircraft to supplement the 727 on short and thin routes.[3] Preliminary design work began on May 11, 1964,[4] based on research that indicated a market for a fifty to sixty passenger airliner flying routes of 50 to 1,000 mi (100 to 1,600 km).[3][5]

The initial concept featured podded engines on the aft fuselage, a T-tail as with the 727, and five-abreast seating. Engineer Joe Sutter relocated the engines to the wings which lightened the wing structure and simplified the accommodation of six-abreast seating in the fuselage.[6] The engine nacelles were mounted directly to the underside of the wings, without pylons, allowing the landing gear to be shortened, thus lowering the fuselage to improve baggage and passenger access.[7] Relocating the engines from the aft fuselage also allowed the horizontal stabilizer to be attached to the aft fuselage instead of as a T-tail.[8] Many designs for the engine attachment strut were tested in the wind tunnel and the optimal shape for high speed was found to be one which was relatively thick, filling the narrow channels formed between the wing and the top of the nacelle, particularly on the outboard side.

At the time, Boeing was far behind its competitors; rival aircraft in service SE 210 Caravelle and in development, the BAC One-Eleven (BAC-111), Douglas DC-9, and Fokker F28 were already into flight certification.[9] To expedite development, Boeing used 60% of the structure and systems of the existing 727, the most notable being the fuselage, which differs in length only. This 148-inch (3.76 m) wide fuselage cross-section permitted six-abreast seating compared to the rivals' five-abreast. The 727's fuselage was derived from the 707.[10]

The proposed wing airfoil sections were based on those of the 707 and 727, but somewhat thicker; altering these sections near the nacelles achieved a substantial drag reduction at high Mach numbers.[11] The engine chosen was the Pratt & Whitney JT8D-1 low-bypass ratio turbofan engine, delivering 14,500 lbf (64 kN) thrust.[12]

The concept design was presented in October 1964 at the Air Transport Association maintenance and engineering conference by chief project engineer Jack Steiner, where its elaborate high-lift devices raised concerns about maintenance costs and dispatch reliability.[6]

Major design developments[]

A comparison of the first three generations

The original 737 continued to be developed into thirteen passenger, cargo, corporate and military variants. These were later divided into what has become known as the four generations of the Boeing 737 family:

  • The first "Original" generation: the 737-100 and -200, also the military T-43 and C-43, launched February 1965.
  • The second "Classic" generation: 737-300, -400 and 500 series, launched in 1979.
  • The third generation "NG" series: 737-600, -700, -800 and 900 series, also the military C-40 and P-8, launched late 1993.
  • The fourth generation 737 MAX series, launched August 2011.

Launch[]

The launch decision for the $150 million development was made by the board on February 1, 1965. Lufthansa became the launch customer on February 19, 1965,[10] with an order for 21 aircraft, worth $67 million[9] after the airline had been assured by Boeing that the 737 project would not be canceled.[13] Consultation with Lufthansa over the previous winter had resulted in the seating capacity being increased to 100.[10]

On April 5, 1965, Boeing announced an order by United Airlines for 40 737s. United wanted a slightly larger capacity than the 737-100, so the fuselage was stretched 36 in (91 cm) ahead of, and 40 in (102 cm) behind the wing.[8] The longer version was designated the 737-200, with the original short-body aircraft becoming the 737-100.[14] Detailed design work continued on both variants simultaneously.

Introduction[]

Lufthansa 737-100 in flight
737-100 introduced by Lufthansa on February 10, 1968.

The first -100 was rolled out on January 17, 1967, and took its maiden flight on April 9, 1967, piloted by Brien Wygle and Lew Wallick.[15] After several test flights the Federal Aviation Administration (FAA) issued Type Certificate A16WE certifying the 737-100 for commercial flight on December 15, 1967.[16][17] It was the first aircraft to have, as part of its initial certification, approval for Category II approaches,[18] which refers to a precision instrument approach and landing with a decision height between 98 to 197 feet (30 to 60 m).[19] Lufthansa received its first aircraft on December 28, 1967, and on February 10, 1968, became the first non-American airline to launch a new Boeing aircraft.[16] Lufthansa was the only significant customer to purchase the 737-100 and only 30 aircraft were produced.[20]

The -200 was rolled out on June 29, 1967, and had its maiden flight on August 8, 1967. It was then certified by the FAA on December 21, 1967.[17][21] The inaugural flight for United Airlines took place on April 28, 1968, from Chicago to Grand Rapids, Michigan.[16] The lengthened -200 was widely preferred over the -100 by airlines.[22] The improved version, the 737-200 Advanced, was introduced into service by All Nippon Airways on May 20, 1971.[23]

The 737 original model with its variants, known later as the Boeing 737 Original, initially competed with SE 210 Caravelle and BAC-111 due to their earlier entry into service and later primarily with the McDonnell Douglas DC-9, then its MD-80 derivatives as the three European short-haul single aisles slowly withdraw from the competition. Sales were low in the early 1970s[24] and, after a peak of 114 deliveries in 1969, only 22 737s were shipped in 1972 with 19 in backlog. The US Air Force saved the program by ordering T-43s, which were modified Boeing 737-200s. African airline orders kept the production running until the 1978 US Airline Deregulation Act, which improved demand for six-abreast narrow-body aircraft. Demand further increased after being re-engined with the CFM56.[6] The 737 went on to become the highest-selling commercial aircraft until surpassed by the competing Airbus A320 family in October 2019, but maintains the record in total deliveries.

The fuselage is manufactured in Wichita, Kansas, by Boeing spin-off company Spirit AeroSystems, before being moved by rail to Renton.[25]

Generations and variants[]

737 Original (first generation)[]

The Boeing 737 Original is the name given to the -100/200 and -200 Advanced series of the Boeing 737 family.

737-100[]

The first Boeing 737-130 used as prototype and later operated by NASA

The initial model was the 737-100, the smallest variant of the 737 aircraft family, which was launched in February 1965 and entered service with Lufthansa in February 1968. In 1968, its unit cost was US$3.7M (1968),[26] $27.5M today. A total of 30 737-100s were ordered: 22 by Lufthansa, 5 by Malaysia–Singapore Airlines (MSA) and 2 by Avianca with the final commercial aircraft delivered to MSA on October 31, 1969. The first aircraft used by Boeing as prototype under registration N73700 was later ordered by and delivered to NASA on July 26, 1973, which then operated it under registration N515NA and retired after 30 years on September 27, 2003. This was the last operated 737-100 and is the only remaining worldwide, which is on the static display in the Museum of Flight in Seattle.[27][28]

The original engine nacelles incorporated thrust reversers taken from the 727 outboard nacelles. They proved to be relatively ineffective and tended to lift the aircraft up off the runway when deployed. This reduced the downforce on the main wheels thereby reducing the effectiveness of the wheel brakes. In 1968, an improvement to the thrust reversal system was introduced.[29] A 48-inch tailpipe extension was added and new, target-style, thrust reversers were incorporated. The thrust reverser doors were set 35 degrees away from the vertical to allow the exhaust to be deflected inboard and over the wings and outboard and under the wings. The improvement became standard on all aircraft after March 1969, and a retrofit was provided for active aircraft. Boeing fixed the drag issue by introducing new longer nacelle/wing fairings, and improved the airflow over the flaps and slats. The production line also introduced an improvement to the flap system, allowing increased use during takeoff and landing. All these changes gave the aircraft a boost to payload and range, and improved short-field performance.[16]

737-200[]

The 737-200 was introduced by United Airlines on April 28, 1968.

The 737-200 was a 737-100 with an extended fuselage, launched by an order from United Airlines in 1965 and entered service with the launch customer in April 1968. Its unit cost was US$4.0M (1968)[26] ($29.8M today). The -200's unit cost was US$5.2M (1972)[30] ($32.2M today). The 737-200 Advanced is an improved version of the -200, introduced into service by All Nippon Airways on May 20, 1971.[23] After aircraft #135, the 737-200 Advanced has improved aerodynamics, automatic wheel brakes, more powerful engines, more fuel capacity, and hence a 15% increase in payload and range over the original -200s and respectively -100s.[18] [31] The 737-200 Advanced became the production standard in June 1971.[32] Boeing also provided the 737-200C (Combi), which allowed for conversion between passenger and cargo use and the 737-200QC (Quick Change), which facilitated a rapid conversion between roles. The 1,095th and last delivery of a -200 series aircraft was in August 1988 to Xiamen Airlines.[1][33]

Nineteen 737-200s, designated T-43, were used to train aircraft navigators for the U.S. Air Force. Some were modified into CT-43s, which are used to transport passengers, and one was modified as the NT-43A Radar Test Bed. The first was delivered on July 31, 1973, and the last on July 19, 1974. The Indonesian Air Force ordered three modified 737-200s, designated Boeing 737-2x9 Surveiller. They were used as Maritime reconnaissance (MPA)/transport aircraft, fitted with SLAMMAR (Side-looking Multi-mission Airborne Radar). The aircraft were delivered between May 1982 and October 1983.[34]

After 40 years, in March 2008, the final 737-200 aircraft in the U.S. flying scheduled passenger service were phased out, with the last flights of Aloha Airlines.[35] The variant still sees regular service through North American charter operators such as Sierra Pacific.[36] With the improved short-field capabilities of the 737-200, Boeing offered the option of the gravel kit modification features preventing foreign object damage, which enables this aircraft to operate on remote, unimproved or unpaved runways, such as gravel runways, that other similarly sized jetliner cannot.[37] Until retiring its -200 fleet in 2007, Alaska Airlines used this option for some of its combi aircraft rural operations to serve many unimproved runways in Alaska.[38][39] Gravel-kitted 737-200 Combis are still used by Canadian North, Air Inuit, Nolinor, Chrono and Air North in Northern Canada where gravel runways are common.

In July 2019, there were 46 Boeing 737-200s in service, mostly with "second and third tier" airlines, and those of developing nations.[40]

737 Classic (second generation)[]

Main article: Boeing 737 Classic

The Boeing 737 Classic is the name given to the 737-300/400/500 series after the introduction of the -600/700/800/900 series of the Boeing 737 family.[41] Produced from 1984 to 2000, a total of 1,988 Classic series were delivered.[42]

The main development was to re-engine with the high pressure ratio CFM56-7. By the early 1990s, while the MD-80 slowly withdraw from the competition leading to introduction of the MD-90, it had become clear that the new A320 family was a serious threat to Boeing's market share, as Airbus won previously loyal 737 customers such as Lufthansa and United Airlines. In November 1993, to keep the hand in the single aisle competition, Boeing's board of directors authorized the Next Generation program to mainly upgrade the 737 Classic series.[43] In late 1993, after engineering trade studies and discussions with major customers, Boeing proceeded to launch a second derivative of the Boeing 737, the 737 Next Generation (NG) -600/700/800/900 series.[1] It featured a redesigned wing with a wider wingspan and larger area, greater fuel capacity, longer range and higher MTOWs. It was equipped with CFM56-7 high pressure ratio engines, a glass cockpit, and upgraded interior configurations. The four main models of the series can accommodate seating for 108 to 215 passengers. It was further developed into additional versions such as the corporate Boeing Business Jet (BBJ) and military P-8 Poseidon aircraft. Following the merger between Boeing with McDonnell Douglas in 1997, the primary competitor for the 737NG series remained only the A320 family.

Close to the next major upgrade of single aisle aircraft at Airbus and Boeing, the price of jet fuel reached a peak in 2008, when airlines devoted 40% of the retail price of an air ticket to pay for fuel, versus 15% in 2000.[44][45] Consequently, in that year carriers retired Boeing 737 Classic aircraft to reduce fuel consumption; replacements consisted of more efficient 737 Next Generation or A320 family aircraft. On June 4, 2008, United Airlines announced it would retire all 94 of its Classic 737 aircraft (64 737-300 and 30 737-500 aircraft), replacing them with A320 family jets taken from its Ted subsidiary, which has been shut down.[46][47][48] This intensified the competition between the two giant aircraft manufacturers, which has since become a duopoly competition.

An optional upgrade with winglets became available for the Classic and NG series.

  • The 737-300 can be retrofitted with Aviation Partners Boeing winglets. The 737-300 retrofitted with winglets is designated the -300SP (Special Performance).
  • WestJet was to launch the 737-600 with winglets, but dropped them in 2006.[49]

737-300[]

737-300 with wider CFM56 turbofans, introduced by USAir on November 28, 1984.

Development began in 1979 for the 737's first major revision, which was originally introduced as the 'new generation' of the 737.[50] Boeing wanted to increase capacity and range, incorporating improvements to upgrade the aircraft to modern specifications, while also retaining commonality with previous 737 variants. In 1980, preliminary aircraft specifications of the variant, dubbed 737-300, were released at the Farnborough Airshow.[51] This first major upgrade series was later renamed to the 737 Classic series. It competed primarily with MD-80, later its derivative MD-90 and the newcomer Airbus A320 family. Boeing engineer Mark Gregoire led a design team, which cooperated with CFM International to select, modify and deploy a new engine and nacelle that would make the 737-300 into a viable aircraft. They chose the CFM56-3B-1 high-bypass turbofan engine to power the aircraft, which yielded significant gains in fuel economy and a reduction in noise, but also posed an engineering challenge, given the low ground clearance of the 737 and the larger diameter of the engine over the original Pratt & Whitney engines. Gregoire's team and CFM solved the problem by reducing the size of the fan (which made the engine slightly less efficient than it had been forecast to be), placing the engine ahead of the wing, and by moving engine accessories to the sides of the engine pod, giving the engine a distinctive non-circular "hamster pouch" air intake.[52][53] Earlier customers for the CFM56 included the U.S. Air Force with its program to re-engine KC-135 tankers.[54] The passenger capacity of the aircraft was increased to 149 by extending the fuselage around the wing by 9 feet 5 inches (2.87 m). The wing incorporated several changes for improved aerodynamics. The wingtip was extended 9 in (23 cm), and the wingspan by 1 ft 9 in (53 cm). The leading-edge slats and trailing-edge flaps were adjusted.[52] The tailfin was redesigned, the flight deck was improved with the optional EFIS (Electronic Flight Instrumentation System), and the passenger cabin incorporated improvements similar to those developed on the Boeing 757.[55] The prototype -300, the 1,001st 737 built, first flew on February 24, 1984, with pilot Jim McRoberts.[55] It and two production aircraft flew a nine-month-long certification program.[56] The 737-300 retrofitted with Aviation Partners' winglets was designated the -300SP (Special Performance). The 737-300 was replaced by the 737-700 of the Next Generation series.

737-400[]

Alaska Airlines was the first airline to have a 737-400 converted to a freighter.

The 737-400 was launched in 1985 to fill the gap between the 737-300 and the 757-200. In June 1986, Boeing announced the development of the 737-400,[57] which stretched the fuselage a further 10 ft (3.0 m), increasing the capacity to 188 passenger and required a tail bumper to prevent tailstrikes during take-off, and a strengthened wing spar.[58] The -400s first flight was on February 19, 1988, and, after a seven-month/500-hour flight-testing run, entered service with Piedmont Airlines that October.[59] The last two -400s, i.e. the last 737 Classics series, were delivered to CSA Czech Airlines on February 28, 2000.[60] The 737-400 was replaced by the 737-800 of the Next Generation series. The 737-400SF was a 737-400 converted to freighter, though it was not a model delivered by Boeing and hence the nickname Special Freighter (SF). Alaska Airlines was the first to convert one of their 400s from regular service to an aircraft with the ability to handle 10 pallets.[61] The airline had also converted five more into fixed combi aircraft for half passenger and freight. These 737-400 Combi aircraft were retired in 2017 and replaced by the 737-700F of the Next Generation series.[62]

737-500[]

Shorter by 7 ft 10 in (2.4 m), Southwest Airlines received the first 737-500 on February 28, 1990

The 737-500 was offered as a modern and direct replacement of the 737-200. It was launched in 1987 by Southwest Airlines, with an order for 20 aircraft,[63] and it flew for the first time on June 30, 1989.[59] A single prototype flew 375 hours for the certification process,[59] and on February 28, 1990, Southwest Airlines received the first delivery.[42]

The -500 incorporated the improvements of the 737 Classic series, allowing longer routes with fewer passengers to be more economical than with the 737-300. The fuselage length of the 737-500 is 1 ft 7 in (48 cm) longer than the 737-200, accommodating up to 140[58] passengers. Both glass and older-style mechanical cockpits arrangements were available.[59] Using the CFM56-3 engine also gave a 25% increase in fuel efficiency over the older 737-200s P&W engines.[59] The 737-500 has faced accelerated retirement due to its smaller size, after 21 years in service compared to 24 years for the -300.[64][65] While a few 737-300s were slated for freighter conversion, no demand at all existed for a -500 freighter conversion. The 737-500 was replaced by the 737-600 of the Next Generation series, though the -600 was not as successful in total orders as the -500.

737 NG (third generation)[]

Main article: Boeing 737 Next Generation

The Boeing 737 Next Generation, abbreviated as 737 Next Gen or 737NG, is the name given to the main models 737-600/700/800/900 series and the extended range -700ER/900ER variants of the Boeing 737 family. It has been produced since 1996 and introduced in 1997, with a total order of 7,097 aircraft, of which 7,031 have been delivered as of May 2019.[1][24]

737-600[]

SAS received the first 737-600 in September 1998

The 737-600, the smallest model of the Next-Generation, was launched by Scandinavian Airlines (SAS) in March 1995 with the first aircraft delivered in September 1998.[66] A total of 69 aircraft without winglets have been produced with the last one delivered to WestJet in 2006.[1] The 737-600 replaced the 737-500 and is similar to the Airbus A318.

737-700[]

Southwest Airlines took delivery of the first 737-700 in December 1997

The 737-700, the first variant of the Next-Generation, was launched in November 1993 with an order of 63 aircraft. The -700 seats 126 passengers in a two-class or 149 passengers in a one-class layout. The launch customer Southwest Airlines took the first delivery in December 1997.[67] The 737-700 replaced the 737-300 and competes with the Airbus A319.

The 737-700C is a convertible version where the seats can be removed to carry cargo instead. There is a large door on the left side of the aircraft. The United States Navy was the launch customer for the 737-700C under the military designation C-40 Clipper.[68]

The 737-700ER (Extended Range) was launched on January 31, 2006, and featured the fuselage of the 737-700 and the wings and landing gear of the 737-800. A 737-700ER can typically accommodate 126 passengers in two classes with a range similar to the Airbus A319LR.[69]

737-800[]

Hapag-Lloyd received the first 737-800 in April 1998

The Boeing 737-800 was a stretched version of the 737-700 launched on September 5, 1994. The -800 seats 162 passengers in a two-class or 189 passengers in a high-density, one-class layout. Launch customer Hapag-Lloyd Flug (now TUIfly) received the first one in April 1998.[70] The -800 replaced directly the -400 and aging 727-200 of US airlines. It filled also the gap left by Boeing's decision to discontinue the MD-80 and MD-90 aircraft, following Boeing's merger with McDonnell Douglas. The 737-800 is the most widely used narrowbody aircraft and competes primarily with the Airbus A320.[71]

737-900[]

The first 737-900 was delivered to Alaska Airlines on May 15, 2001

The 737-900 was launched in 1997. It retains the MTOW, fuel capacity, trading range for payload and also the exit configuration of the -800, limiting its seat capacity to approximately 177 in a two class and 189 in a high-density, one class layout. The launch customer Alaska Airlines received the delivery on May 15, 2001.

The 737-900ER (Extended Range) is the newest and largest variant of the 737NG generation. An additional pair of exit doors and a flat rear pressure bulkhead increased its seating capacity to 180 passengers in a two-class and up to 220 passengers in a one-class configuration.[72] The -900ER was introduced to meet the range and passenger capacity of the discontinued 757-200 and to directly compete with the Airbus A321.

737 MAX (fourth generation)[]

Main article: Boeing 737 MAX

The Boeing 737 MAX is the name given to the main MAX 737-7/8/9/10 series and high-density MAX 200 variant of the Boeing 737 family. It is offered in four main variants, typically offering 138 to 230 seats and a range of 3,215 to 3,825 nmi (5,954 to 7,084 km). The 737 MAX 7, MAX 8 (including the denser, 200-seat MAX 200), and MAX 9 replace the 737-700, -800, and -900 respectively. The further stretched 737 MAX 10 has also been added to the series. The main development was to re-engine with CFM LEAP-1B very high bypass ratio. On July 20, 2011, Boeing announced plans for a third major upgrade and respectively fourth generation of 737 series to be powered by the CFM LEAP-1B engine, with American Airlines intending to order 100 of these aircraft.[73]

On August 30, 2011, Boeing confirmed the launch of the 737 new engine variant, to be called the Boeing 737 MAX.[74][75][76] It was based on earlier 737 designs with more efficient LEAP-1B power plants, aerodynamic improvements (most notably split-tip winglets), and airframe modifications. It competes with the Airbus A320neo family that was launched in December 2010 and reached 1,029 orders by June 2011, breaking Boeing's monopoly with American Airlines, which had an order for 130 A320neos that July.[77] The 737 MAX had its first flight on January 29, 2016, and gained FAA certification on March 8, 2017.[78][79] The first delivery was a MAX 8 on May 6, 2017, to Lion Air's subsidiary Malindo Air,[80] which put it into service on May 22, 2017.[81] As of January 2019, the series has received 5,011 firm orders.[1]

In March 2019, aviation authorities around the world grounded the 737 MAX following two hull loss crashes which caused 346 deaths.[82] On December 16, 2019, Boeing announced that it would suspend production of the 737 MAX from January 2020,[83] which was resumed in May 2020. In the midyear 2020, the FAA and Boeing conducted a series of recertification test flights.[84] On November 18, 2020, the FAA cleared the MAX to return to service. Before the aircraft can fly again, repairs must be implemented and airlines' training programs must be approved. Passenger flights in the U.S. are expected to resume before the end of the year.[2] Worldwide, the first airline to resume passenger service was Brazilian low-cost Gol, on December 9, 2020.[85]

737 MAX 7[]

737 MAX 7 at the 2018 Farnborough Airshow

The 737 MAX 7, a shortened variant of the MAX 8, was originally based on the 737-700, flying 1,000 nmi (1,900 km) farther and accommodating two more seat rows at 18% lower fuel costs per seat.[86][87] The redesign uses the 737-8 wing and landing gear; a pair of over-wing exits rather than the single-door configuration; a 46-inch-longer (1,200 mm) aft fuselage and a 30-inch-longer (760 mm) longer forward fuselage; structural re-gauging and strengthening; and systems and interior modifications to accommodate the longer length.[88] Entry into service with launch operator Southwest Airlines was expected in January 2019, but the airline deferred these orders until 2023–2024.[89][90] The 737 MAX 7 replaced the 737-700 and was predicted to carry 12 more passengers and fly 400 nmi (740 km) farther than Airbus A319neo with 7% lower operating costs per seat.[91]

737 MAX 8[]

The Boeing 737 MAX 8 entered service with Malindo Air (wearing Batik Air Malaysia livery)

The MAX 8, the first variant of the 737 MAX, has a longer fuselage than the MAX 7. On July 23, 2013, Boeing completed the firm configuration for the 737 MAX 8.[92] Its first commercial flight was operated by Malindo Air on May 22, 2017. The MAX 8 replaced the 737-800 and competed with the A320neo.

The 737 MAX 200, a high-density version of the 737 MAX 8, was launched in September 2014 and named for seating for up to 200 passengers in a single-class layout with slimline seats requiring an extra pair of exit doors. The MAX 200 would be 20% more cost-efficient per seat, including 5% lower operating costs than the MAX 8 and would be the most efficient narrow-body on the market when entering service.[93] In mid-November 2018, the first MAX 200 of the 135 ordered by Ryanair rolled out, in a 197-seat configuration.[94] It was first flown from Renton on January 13, 2019, and was due to enter service in April 2019.[95][96]

737 MAX 9[]

737 MAX 9 first flight on April 13, 2017

The 737 MAX 9, the stretched variant of the MAX 8, was launched with an order of 201 aircraft in February 2012. It made its roll-out on March 7, 2017, and first flight on April 13, 2017;[97] It was certified by February 2018.[98] The launch customer, Lion Air Group, took the first MAX 9 on March 21, 2018, before entering service with Thai Lion Air.[99] The 737 MAX 9 replaced the 737-900 and competed with Airbus A321neo.

737 MAX 10[]

737 MAX 10 rendering

The MAX 10 was proposed as a stretched MAX 9 in mid-2016, enabling seating for 230 in a single class or 189 in two-class layout, compared to 193 in two-class seating for the A321neo. The modest 66 in (1.7 m) stretch of fuselage enables the MAX 10 to retain the existing wing and CFM Leap 1B engine from the MAX 9 with a trailing-link main landing gear as the only major change.[100] The MAX 10 was launched on June 19, 2017, with 240 orders and commitments from more than ten customers.[101] The variant configuration with a predicted 5% lower trip cost and seat cost compared to the A321neo was firmed up by February 2018, and by mid-2018, the critical design review was completed.[102][103] The Max 10 has similar capacity as A321XLR, but shorter range and much poorer field performance in smaller airports than A321XLR.[104] It was unveiled in Boeing's Renton factory on November 22, 2019, and scheduled for the first flight in 2020.[105][106] Boeing also considered a parallel development along with the 757 replacement, similar to the development of the 757 and 767 in the 1970s.[107]

In the late 2010s, Boeing worked on a medium-range Boeing New Midsize Airplane (NMA) with two variants seating 225 or 275 passengers and targeting the same market segment as the 737 MAX 10 and the Airbus A321 neo.[108] A Future Small Airplane (FSA) was also touted during this period.[109] The NMA project was set aside in January 2020, as Boeing focused on returning the 737 MAX to service and announced that it would be taking a new approach to future projects.[110]

Design[]

The 737 continued to evolve into many variants but still remains recognisable as the 737. These are divided into four generations but all are based on the same basic design.

Airframe[]

The fuselage cross section and nose is derived from that of the Boeing 707 and Boeing 727. Early 737 cockpits also inherited the "eyebrow windows" positioned above the main glareshield, which were a feature of the original 707 and 727[111] to allow for better crew visibility.[112] Contrary to popular belief, these windows were not intended for celestial navigation[113] (only the military T-43A had a sextant port for star navigation, which the civilian models lacked.)[114] With modern avionics, the windows became redundant, and many pilots actually placed newspapers or other objects in them to block out sun glare. They were eliminated from the 737 cockpit design in 2004, although they are still installed on customer request.[115] The eyebrow windows were sometimes removed and plugged, usually during maintenance overhauls, and can be distinguished by the metal plug which differs from the smooth metal in later aircraft that were not originally fitted with the windows.[115]

The 737's main landing gear, under the wings at mid-cabin, rotates into wheel wells in the aircraft's belly. The legs are covered by partial doors, and "brush-like" seals aerodynamically smooth (or "fair") the wheels in the wells. The sides of the tires are exposed to the air in flight. "Hub caps" complete the aerodynamic profile of the wheels. It is forbidden to operate without the caps, because they are linked to the ground speed sensor that interfaces with the anti-skid brake system. The dark circles of the tires are clearly visible when a 737 takes off, or is at low altitude.[116]

From July 2008 the steel landing gear brakes on new NGs were replaced by Messier-Bugatti carbon brakes, achieving weight savings up to 550–700 lb (250–320 kg) depending on whether standard or high-capacity brakes.[117] On a 737-800 this gives a 0.5% improvement in fuel efficiency.[118]

737s are not equipped with fuel dump systems. The original design was too small to require this, and adding a fuel dump system to the later, larger variants would have incurred a large weight penalty. Boeing instead demonstrated an "equivalent level of safety". Depending upon the nature of the emergency, 737s either circle to burn off fuel or land overweight. If the latter is the case, the aircraft is inspected by maintenance personnel for damage and then returned to service if none is found.[119][120]

  • The original 737 with JT8D engines that span the entire wing chord

  • The 737 Classic with larger CFM56s

  • The 737NG with improved CFM56-7 engines 

  • The 737 MAX has larger CFM LEAP engines with chevrons

Engines[]

Engines on the 737 Classic series (-300, -400, -500) and Next-Generation series (-600, -700, -800, -900) do not have circular inlets like most aircraft but rather a planform on the lower side, which has been dictated largely by the need to accommodate ever larger engine diameters. The 737 Classic series featured CFM56 high bypass turbofan engines, which were 25% more efficient and also reduced noise significantly over JT8D low bypass engines used on the 737 Original series (-100 and -200), but also posed an engineering challenge given the low ground clearance of the Boeing 737 family. Boeing and engine supplier CFM International (CFMI) solved the problem by placing the engine ahead of (rather than below) the wing, and by moving engine accessories to the sides (rather than the bottom) of the engine pod, giving the 737 Classic and later generations a distinctive non-circular air intake.[52]

The wing also incorporated changes for improved aerodynamics. The engines' accessory gearbox was moved from the 6 o'clock position under the engine to the 4 o'clock position (from a front/forward looking aft perspective). This side-mounted gearbox gives the engine a somewhat rounded triangular shape. Because the engine is close to the ground, 737-300s and later models are more prone to engine foreign object damage (FOD). The improved, higher pressure ratio CFM56-7 turbofan engine on the 737 Next Generation is 7% more fuel-efficient than the previous CFM56-3 on the 737 Classic with the same bypass ratio. The newest 737 variants, the 737 MAX series, feature LEAP-1B engines from CFMI with a 68 inches (1.73 m) fan diameter. These engines were expected to be 10-12% more efficient than the CFM56-7B engines on the 737 Next Generation series.[121]

737-200 JT8D engine with original cowling design
737-800 CFM56 engine with ovoid "hamster pouch" inlet
737 MAX 9 CFM LEAP-1B engine with 787-derived engine chevrons

Flight systems[]

The 737 is unusual in that it still uses a hydro-mechanical flight control system, similar to the Boeing 707 and typical of the period, that transmits pilot commands to control surfaces by steel cables run through the fuselage and wings rather than by an electrical fly-by-wire system as used in all of the Airbus fleet and all later Boeing models.[122] This has been raised as a safety issue because of the impracticality of duplicating such a mechanical cable-based system in the way that an electrical or electronic system can be. This leaves the flight controls as a single point of failure, for example by metal fragments from an uncontained engine failure penetrating the wings or fuselage.[123]

The primary flight controls have mechanical backups. In the event of total hydraulic system failure or double engine failure, they will automatically and seamlessly revert to control via servo tab. In this mode, the servo tabs aerodynamically control the elevators and ailerons; these servo tabs are in turn controlled by cables running to the control yoke. The pilot's muscle forces alone control the tabs.

The 737 Next Generation series introduced a six-screen LCD glass cockpit with modern avionics but designed to retain crew commonality with previous 737 generations.[124] The 737 MAX introduced a 4 screen 15.1 inch cockpit manufactured by Rockwell Collins derived from the Boeing 787 Dreamliner. Except for the spoilers which are fly-by-wire controlled and all the analog instruments becoming digital, everything else is similar to the cockpits of the previous 737 generations to maintain commonality.[citation needed]

Original 737-200 cockpit
Classic 737-300 cockpit
Next Generation 737-800 cockpit

Aerodynamic[]

The Original -100 and -200 series were built without wingtip devices but these were later introduced to improve fuel efficiency. The 737 has evolved four winglet types: the 737-200 Mini-winglet, 737 Classic/NG Blended Winglet, 737 Split Scimitar Winglet, and 737 MAX Advanced Technology Winglet.[115] The 737-200 Mini-winglets are part of the Quiet Wing Corp modification kit that received certification in 2005.[115]

Blended winglets were standard on the 737 NG and are available for retrofit on 737 Classic models. These winglets stand approximately 8 feet (2.4 m) tall and are installed at the wing tips. They improve fuel efficiency by up to 5% through lift-induced drag reduction achieved by moderating wingtip vortices.[125][126]

Split Scimitar winglets became available in 2014 for the 737-800, 737-900ER, BBJ2 and BBJ3, and in 2015 for the 737-700, 737-900 and BBJ1.[127] Split Scimitar winglets were developed by Aviation Partners, the same Seattle-based corporation that developed the blended winglets; the Split Scimitar winglets produce up to a 5.5% fuel savings per aircraft compared to 3.3% savings for the blended winglets. Southwest Airlines flew their first flight of a 737-800 with Split Scimitar winglets on April 14, 2014.[128] The next generation 737, 737 MAX, will feature an Advanced Technology (AT) Winglet that is produced by Boeing. The Boeing AT Winglet resembles a cross between the Blended Winglet and the Split Scimitar Winglet.[129]

An optional Enhanced Short Runway Package was developed for use on short runways.

Blended Winglet, standard on NGs, a retrofit option for Classics
Split Scimitar Winglet standard on later NGs
Advanced Technology Winglet standard on MAX

Interior[]

The first generation Original series 737 cabin was replaced for the second generation Classic series with a design based on the Boeing 757 cabin. The Classic cabin was then redesigned once more for the third, Next Generation, 737 with a design based on the Boeing 777 cabin. Boeing later offered the redesigned Sky Interior on the NG. The principle features of the Sky Interior include: sculpted sidewalls, redesigned window housings, increased headroom and LED mood lighting,[130][131] larger pivot-bins based on the 777 and 787 designs and generally more luggage space,[131] and claims to have improved cabin noise levels by 2–4 dB.[130] The first 737 equipped Boeing Sky Interior was delivered to Flydubai in late 2010.[130] Continental Airlines,[132][133] Alaska Airlines,[134] Malaysia Airlines,[135] and TUIFly have also received Sky Interior-equipped 737s.[136]

737 Classic interior in 3–3 economy class layout
Boeing 737NG standard interior with curved panels
Boeing 737NG Sky Interior with pivot bins and LED lighting

Other variants[]

737 AEW&C[]

The Boeing 737 AEW&C is an Airborne Early Warning and Control version of the 737-700
Main article: Boeing 737 AEW&C

The Boeing 737 AEW&C is a 737-700IGW roughly similar to the 737-700ER. This is an Airborne Early Warning and Control (AEW&C) version of the 737NG. Australia is the first customer (as Project Wedgetail), followed by Turkey and South Korea.

T-43/CT43A[]

The T-43 was a 737-200 used by the United States Air Force to train navigators
Main article: Boeing T-43

The T-43 was a 737-200 modified for use by the United States Air Force for training navigators, now known as USAF combat systems officers. Informally referred to as the Gator (an abbreviation of "navigator") and "Flying Classroom", nineteen of these aircraft were delivered to the Air Training Command at Mather AFB, California during 1973 and 1974. Two additional aircraft were delivered to the Colorado Air National Guard at Buckley ANGB (later Buckley AFB) and Peterson AFB, Colorado, in direct support of cadet air navigation training at the nearby U.S. Air Force Academy.

Two T-43s were later converted to CT-43As, similar to the CT-40A Clipper below, in the early 1990s and transferred to Air Mobility Command and United States Air Forces in Europe, respectively, as executive transports. A third aircraft was also transferred to Air Force Material Command for use as a radar test bed aircraft and was redesignated as an NT-43A. The T-43 was retired by the Air Education and Training Command in 2010 after 37 years of service.[137]

C-40 Clipper[]

The Boeing C-40 Clipper is a military version of the 737-700C
Main article: Boeing C-40 Clipper

The Boeing C-40 Clipper is a military version of the 737-700C NG. It is used by both the United States Navy and the United States Air Force, and has been ordered by the United States Marine Corps.[138] Technically, only the Navy C-40A variant is named "Clipper", whereas the USAF C-40B/C variants are officially unnamed.

P-8 Poseidon[]

Main article: Boeing P-8 Poseidon
The P-8 Poseidon is a 737-800 variant for anti-submarine warfare, anti-surface warfare, and shipping interdiction

The P-8 Poseidon (formerly Multimission Maritime Aircraft) developed for the United States Navy by Boeing Defense, Space & Security, based on the Next Generation 737-800ERX. The P-8 can be operated in the anti-submarine warfare (ASW), anti-surface warfare (ASUW), and shipping interdiction roles. It is armed with torpedoes, Harpoon anti-ship missiles and other weapons, and is able to drop and monitor sonobuoys, as well as operate in conjunction with other assets such as the Northrop Grumman MQ-4C Triton maritime surveillance unmanned aerial vehicle (UAV).

Boeing Business Jet (BBJ)[]

Main article: Boeing Business Jet
BBJ cabin example

In the late 1980s, Boeing marketed the 77-33 jet, a business jet version of the 737-300.[139] The name was short-lived. After the introduction of the Next Generation series, Boeing introduced the Boeing Business Jet (BBJ) series. The BBJ1 was similar in dimensions to the 737-700 but had additional features, including stronger wings and landing gear from the 737-800, and had increased range over the other 737 models through the use of extra fuel tanks. The first BBJ rolled out on August 11, 1998, and flew for the first time on September 4.[140]

On October 11, 1999, Boeing launched the BBJ2. Based on the 737-800, it is 19 feet 2 inches (5.84 m) longer than the BBJ, with 25% more cabin space and twice the baggage space, but has slightly reduced range. It is also fitted with auxiliary belly fuel tanks and winglets. The first BBJ2 was delivered on February 28, 2001.[140]

Boeing's BBJ3 is based on the 737-900ER. The BBJ3 has 1,120 square feet (104 m2) of floor space, 35% more interior space, and 89% more luggage space than the BBJ2. It has an auxiliary fuel system, giving it a range of up to 4,725 nautical miles (8,751 km), and a Head-up display. Boeing completed the first example in August 2008. This aircraft's cabin is pressurized to a simulated 6,500-foot (2,000 m) altitude.[141][142]

Boeing Converted Freighter program[]

The Boeing Converted Freighter program (BCF), or the 737-800BCF program, was launched by Boeing in 2016. It converts old 737-800 passenger jets to dedicated freighters.[143] The first 737-800BCF was delivered in 2018 to GECAS, which is leased to West Atlantic.[144] Boeing has signed an agreement with Chinese YTO Cargo Airlines to provide the airline with 737-800BCFs pending a planned program launch.[145]

Competition[]

Main article: Competition between Airbus A320 and Boeing 737
United Airlines Airbus A320 (front) and Boeing 737-900 on final approach
737 vs A320 family deliveries per model 1967-2018

The Boeing 737 Classic, Next Generation and MAX series have faced significant competition from the Airbus A320 family first introduced in 1988. The relatively recent Airbus A220 family now also competes against the smaller capacity end of the 737 variants. The A320 was developed to compete also with the McDonnell Douglas MD-80/90 and 95 series; the 95 later becoming the Boeing 717. Since July 2017, Airbus had a 59.4% market share of the re-engined single aisle market, while Boeing had 40.6%; Boeing had doubts on over-ordered A320neos by new operators and expected to narrow the gap with replacements not already ordered.[146] However, in July 2017, Airbus had still 1,350 more A320neo orders than Boeing had for the 737 MAX.[147]

Boeing delivered 8,918 of the 737 family between March 1988 and December 2018,[1] while Airbus delivered 8,605 A320 family aircraft over a similar period since first delivery in early 1988.[148]

  •   Airbus A320 family deliveries[149][150]
  •   Boeing 737 series deliveries[151][152]
This graph:
  • view
  • talk


Operators[]

By 2006, over 4,500 Boeing 737s were operated by more than 500 airlines, flying to 1,200 destinations in 190 countries and on average 1,250 aircraft were airborne worldwide, with two either departing or landing every five seconds.[153] The 737 was still the most commonly flown aircraft in 2008,[154] 2009,[155] and 2010.[156]

In 2016, there were 6,512 Boeing 737 airliners in service (5,567 737NGs plus 945 737-200s and 737 Classics), more than the 6,510 Airbus A320 family.[157] while in 2017, there were 6,858 737s in service (5,968 737NGs plus 890 737-200s and classics), fewer than the 6,965 A320 family.[158][verification needed]

As of June 2021, despite being the most delivered airliner, only 9,315 Boeing 737s were in service worldwide,[159] slightly fewer than the 9,353 A320 family,[160] as more 737s were already out of service.

Civilian[]

Main article: List of Boeing 737 operators

Since entering service in 1968, the 737 has carried over 12 billion passengers over 74 billion miles (120 billion km; 65 billion nm), and has accumulated more than 296 million hours in the air. The 737 represents more than 25% of the worldwide fleet of large jet airliners.[153][161]

Military[]

Many countries operate the 737 passenger, BBJ, and cargo variants in government or military applications.[162] Users with 737s include:

  •  Argentina
  •  Australia
  •  Brazil
  •  Chile
  •  China
  •  Colombia
  •  Democratic Republic of the Congo
  •  India
  •  Indonesia
  •  Iran
  •  Kazakhstan
  •  Malaysia
  •  Mexico
  •  Mongolia
  •  Netherlands
  •  Nigeria
  •  Pakistan
  •  Peru
  •  Poland
  •  South Africa
  •  Saudi Arabia
  •  South Korea
  •  Taiwan
  •  Thailand
  •  Turkey
  •  United Kingdom
  •  United States

Orders and deliveries[]

737 deliveries per year, 1967-2018

Boeing delivered the 5,000th 737 to Southwest Airlines on February 13, 2006, the 6,000th 737 to Norwegian Air Shuttle in April 2009,[163] the 8,000th 737 to United Airlines on April 16, 2014.[164] The 10,000th 737 was ordered in July 2012,[165] and rolled out on March 13, 2018, as over 4,600 units were to be delivered.[166]

As of July 2021, 10,750 units of the Boeing 737 family had been delivered, making it the most sold commercial aircraft in the world.[1]

The 737 had the highest, cumulative orders for any airliner until surpassed by the A320 family in October 2019.[167] In 2020, 737 orders dropped by 90%, as 737 MAX orders dried up after the March grounding.[168][better source needed] The 737 MAX backlog fell by 182, mainly due to the Jet Airways bankruptcy, a drop in Boeing's airliner backlog was a first in at least the past 30 years.[169]

As of July 2021, 14,837 units of the Boeing 737 family had been ordered, with 4,087 orders were pending, or 3,314 when including "additional criteria for recognizing contracted backlog with customers beyond the existence of a firm contract" (ASC 606 Adjustment).[1]

Deliveries by year for all 737 generations and model series[1]
Year 2021 2020 2019 2018 2017 2016 2015 2014 2013 2012 2011 2010 2009 2008 2007
Deliveries 136 43[a] 127 580 529 490 495 485 440 415 372 376 372 290 330
2006 2005 2004 2003 2002 2001 2000 1999 1998 1997 1996 1995 1994 1993 1992 1991 1990 1989 1988 1987
302 212 202 173 223 299 282 320 282 135 76 89 121 152 218 215 174 146 165 161
1986 1985 1984 1983 1982 1981 1980 1979 1978 1977 1976 1975 1974 1973 1972 1971 1970 1969 1968 1967
141 115 67 82 95 108 92 77 40 25 41 51 55 23 22 29 37 114 105 4
  1. ^ Note that the 2020 deliveries consist of 16 NG-based variants and 27 737 MAXs.

Model summary[]

Orders and deliveries by generation and model series[1]
Generation Model series ICAO code[170] Orders Deliveries Unfilled orders First flight
737 Original 737-100 B731 30 30 April 9, 1967
737-200 B732 991 991 August 8, 1967
737-200C 104 104 September 18, 1968
737-T43A 19 19 March 10, 1973
737 Classic 737-300 B733 1,113 1,113 February 24, 1984
737-400 B734 486 486 February 19, 1988
737-500 B735 389 389 June 30, 1989
737 NG 737-600 B736 69 69 January 22, 1998
737-700 B737 1,128 1,128 February 9, 1997
737-700C 22 22 April 14, 2000[171]
737-700W 15 14 1 May 20, 2004[172]
737-800 B738 4,991 4,989 2 July 31, 1997
737-800A 186 149 37 April 25, 2009[173]
737-900 B739 52 52 August 3, 2000
737-900ER 505 505 September 1, 2006
737 BBJ 737-BBJ1 (-700) B737 121 121 September 4, 1998
737-BBJ2 (-800) B738 23 21 2 N/A
737-BBJ3 (-900) B739 7 7 N/A
737 MAX 737 MAX (-7,-8,-9,-10) B37M / B38M / B39M / B3XM 4,586 541 4,045 January 29, 2016[174]
Boeing 737 family All series B73-, B3-M 14,837 10,750 4,087 April 9, 1967[1]

Accidents and incidents[]

Main article: List of accidents and incidents involving the Boeing 737

As of January 2021, there has been a total of 502 aviation accidents and incidents involving all 737 aircraft,[175] including 218 hull losses resulting in a total of 5,585 fatalities.[176][177]

A Boeing analysis of commercial jet airplane accidents between 1959 and 2013 found that the hull loss rate for the Original series was 1.75 per million departures, for the Classic series 0.54, and the Next Generation series 0.27.[178]

During the 1990s, a series of rudder issues on series -200 and -300 aircraft resulted in multiple incidents. In two total loss accidents, United Airlines Flight 585 (a -200 series) and USAir Flight 427, (a -300), the pilots lost control of the aircraft following a sudden and unexpected deflection of the rudder, killing everyone aboard, a total of 157 people.[179] Similar rudder issues led to a temporary loss of control on at least five other 737 flights before the problem was ultimately identified. The National Transportation Safety Board determined that the accidents and incidents were the result of a design flaw that could result in an uncommanded movement of the aircraft's rudder.[180]:13[181]:ix As a result of the NTSB's findings, the Federal Aviation Administration ordered that the rudder servo valves be replaced on all 737s and mandated new training protocols for pilots to handle an unexpected movement of control surfaces.[182]

Following the crashes of two 737 MAX 8 aircraft, Lion Air Flight 610 in October 2018 and Ethiopian Airlines Flight 302 in March 2019, which caused 346 deaths, national aviation authorities around the world grounded the 737 MAX series.[82] On December 16, 2019, Boeing announced that it would suspend production of the 737 MAX from January 2020.[83] Production of the MAX series resumed on May 27, 2020.[183]

On July 2, 2021, a Boeing 737-200 cargo plane crashed off the coast of Hawaii. The pilots, the only two people onboard, were rescued and are in serious and critical conditions. Released recordings include the crew discussing losing function in both engines.[184]

Aircraft on display[]

USAir 737-200 fuselage section at the Museum of Flight

Owing to the 737's long production history and popularity, many older 737s have found use in museums after reaching the end of useful service.

  • 19437/1: 737-130 registered N515NA on static display at the Museum of Flight in Seattle, Washington. It was the first 737 built and is painted in NASA markings.[185]
  • 19047/14: 737-222 registered N9009U preserved by Southern Illinois University Carbondale at Southern Illinois Airport.[186]
  • 20213/160: 737-201 registered N213US forward fuselage on static display at the Museum of Flight in Seattle, Washington, in USAir livery.[187]
  • 20561/292: 737-281 registered LV-WTX on static display at the National Museum of Aeronautics in Morón, Buenos Aires.[188]
  • 20562/293: 737-281 registered CC-CSK fuselage preserved at Motel Bahía in Concón, Chile.[189][190]
  • 21262/470: 737-2H4 registered C-GWJT on static display at the British Columbia Institute of Technology Aerospace Technology Campus in Richmond, British Columbia. It is used for ground instructional training. The aircraft was donated by WestJet and bears its livery.[191][192]
  • 21340/499: 737-2H4 registered N29SW on static display at the Kansas Aviation Museum in Wichita, Kansas. It was formerly operated by Ryan International Airlines and prior to that Southwest Airlines.[193][194]
  • 21712/557: 737-275 registered C-GIPW preserved in operational condition at Alberta Flying Heritage Museum in Villeneuve, Alberta. Painted in Pacific Western Airlines livery.[195]
  • 22578/767: 737-290C registered N740AS on static display at the Alaska Aviation Heritage Museum in Anchorage, Alaska. It was formerly operated by Alaska Airlines.[196]
  • 22826/878: 737-2H4 registered YV1361 preserved at a hotel in Santiago, Chile. It was formerly operated by Avior Airlines.[197]
  • 23059/980: 737-2Z6 registered 22–222 on static display at the Royal Thai Air Force Museum in Bangkok.[198][199]
  • 22940/1037: 737-3H4 registered N300SW on static display at the Frontiers of Flight Museum in Dallas, Texas. It was the first such aircraft delivered to Southwest Airlines in November 1984.[200]
  • 23257/1124: 737-301 registered PK-AWU on static display at ITE College Central in Singapore.[201]
  • 23472/1194: 737-219 registered ZS-SMD on static display at the South African Airways Museum in Germiston, Gauteng.[202]
  • 23660/1294: 737-377 registered G-CELS (nickname Elsie) on static display at Norwich International Aviation Academy, as an aircraft maintenance trainer. It is painted in the silver & red Jet2.com colour scheme, without the logo branding.[203]
  • 27286/2528: 737-3Q8 registered N759BA on static display at the Pima Air & Space Museum in Tucson, Arizona. It is painted in China Southern Airlines markings, and was previously operated by the airline as B-2921.[204]

Specifications[]

Boeing 737 Characteristics[205]
Variant 737-100 737-200 737-300/-400/-500 737-600/-700/-800/-900 737 MAX-7/8/9/10[206][207]
Cockpit crew Two
2-class seats 85 : 12F 73Y 102 : 14F@38" 88Y@34" 126/147/110 108/128/160/177 138/162/178/188
1-class seats 103@34" - 118@30" 115@34" - 130@30" 140+/159-168/122-132 123-130/140+/175+/177-215 153/178/193/204
Exit limit 124 136 149/188/145 149/149/189/220 172/200/220/230
Length 94 ft (29 m) 100 ft 2 in (30.53 m) 102–120 ft (31–37 m) 102–138 ft (31–42 m) 116.7–143.7 ft (35.56–43.8 m)
Span 93 ft (28 m) 94 ft 9 in (28.88 m) 112 ft 7 in (34.32 m)
winglets: 117 ft 5 in (35.79 m) 		117 ft 10 in (35.92 m)
Wing[208] 979.9 sq ft (91.04 m2), 25° sweep 1,341.2 sq ft (124.60 m2) 1,370 sq ft (127 m2)[209]
Height 37 ft (11 m) 36 ft 6 in (11.13 m) 41 ft (12 m) 40 ft 4 in (12.29 m)
Width Fuselage: 148 inches (3.8 m), Cabin: 139.2 inches (3.54 m)
Cargo 650 cu ft (18 m3) 875 cu ft (24.8 m3) 882–1,373 cu ft
25.0–38.9 m3 		720–1,826 cu ft
20.4–51.7 m3 		1,543–1,814 cu ft
43.7–51.4 m3
MTOW 110,000 lb (50,000 kg) 128,100 lb (58,100 kg) 133,500–150,000 lb
60,600–68,000 kg 		144,500–187,700 lb
65,500–85,100 kg 		177,000–194,700 lb
80,300–88,300 kg
OEW 62,000 lb (28,000 kg) 65,300 lb (29,600 kg) 70,440–76,760 lb
31,950–34,820 kg 		80,200–98,495 lb
36,378–44,677 kg 		MAX 8: 99,360 lb
45,070 kg[210]
Fuel capacity 4,720 US gal (17,900 L) 5,970 US gal (22,600 L) [a] 5,311 US gal (20,100 L) 6,875–7,837 US gal (26,020–29,670 L) 6,853 US gal (25,940 L)
Speed Mach 0.745–Mach 0.82 (430–473 kn; 796–876 km/h) Cruise—MMO[209] Mach 0.785 (453 kn; 838 km/h) Cruise
Takeoff[b] 6,099 ft (1,859 m)[208] 7,500–8,690 ft
2,290–2,650 m[211] 		6,161–7,598 ft
1,878–2,316 m[208]
Range 1,540 nmi (2,850 km)[212] 2,600 nmi (4,800 km)[c][213] 2,060–2,375 nmi
3,815–4,398 km[211] 		2,935–3,010 nmi
5,436–5,575 km[214] 		3,300–3,850 nmi
6,110–7,130 km
Ceiling[209] 37,000 ft (11,300 m) 41,000 ft (12,500 m)
Engines (×2) Pratt & Whitney JT8D-7/-9/-15/-17 CFM56-3 series CFM56-7 series CFM LEAP-1B
Thrust (×2) 14,000 lbf (62 kN)[212] 14,500–16,400 lbf
64–73 kN[213] 		20,000–23,500 lbf
89–105 kN 		20,000–27,000 lbf
89–120 kN 		up to 29,300 lbf (130 kN)
  1. ^ With 810 US gal (3,100 L) auxiliary fuel tank
  2. ^ MTOW, Sea Level, International Standard Atmosphere
  3. ^ 120 passengers

See also[]

Related development

Aircraft of comparable role, configuration, and era

References[]

Citations[]

  1. ^ Jump up to: a b c d e f g h i j k l "Boeing: Orders and Deliveries (updated monthly)". boeing.com. July 31, 2021. Archived from the original on January 12, 2021. Retrieved August 11, 2021.
  2. ^ Jump up to: a b Gates, Dominic (November 18, 2020). "Boeing 737 MAX can return to the skies, FAA says". Archived from the original on November 30, 2020. Retrieved November 18, 2020.
  3. ^ Jump up to: a b "Transport News: Boeing Plans Jet. Archived August 21, 2017, at the Wayback Machine" The New York Times, July 17, 1964. Retrieved: February 26, 2008.
  4. ^ Endres 2001, p. 122
  5. ^ Sharpe & Shaw 2001, p. 12
  6. ^ Jump up to: a b c Stephen Trimble (April 7, 2017). "Half-century milestone marks 737's enduring appeal". FlightGlobal. Archived from the original on September 9, 2017. Retrieved April 7, 2017.
  7. ^ Sutter 2006, pp. 76–78.
  8. ^ Jump up to: a b Sharpe & Shaw 2001, p. 17
  9. ^ Jump up to: a b "German Airline Buys 21 Boeing Short-Range Jets." The Washington Post, February 20, 1965. Retrieved: February 26, 2008.
  10. ^ Jump up to: a b c Sharpe & Shaw 2001, p. 13
  11. ^ Olason, M.L. and Norton, D.A. "Aerodynamic Philosophy of the Boeing 737", AIAA paper 65-739, presented at the AIAA/RAeS/JSASS Aircraft Design and Technology Meeting, Los Angeles California, November 1965. Reprinted in the AIAA Journal of Aircraft, Vol.3 No.6, November/December 1966, pp.524-528.
  12. ^ Shaw 1999, p. 6
  13. ^ Wallace, J. "Boeing delivers its 5,000th 737." Archived March 9, 2012, at the Wayback Machine Seattle Post-Intelligencer, February 13, 2006. Retrieved June 7, 2011.
  14. ^ Redding & Yenne 1997, p. 182
  15. ^ "Original 737 Comes Home to Celebrate 30th Anniversary". www.boeing.com. Boeing. May 2, 1997. Archived from the original on November 29, 2014. Retrieved November 18, 2014.
  16. ^ Jump up to: a b c d Sharpe & Shaw 2001, p. 20
  17. ^ Jump up to: a b "Type Certificate Data Sheet A16WE." Archived September 9, 2008, at the Wayback Machine faa.gov. Retrieved: September 3, 2010.
  18. ^ Jump up to: a b Redding & Yenne 1997, p. 183
  19. ^ Williams, Scott (January 18, 2009). "CAT II – Category II – Approach". Aviation Glossary. Archived from the original on October 31, 2018. Retrieved October 30, 2018.
  20. ^ Sharpe & Shaw 2001, p. 120
  21. ^ Endres 2001, p. 124
  22. ^ "Boeing 737 History". ModernAirlines.com. July 29, 2015. Archived from the original on August 22, 2015. Retrieved August 10, 2015.
  23. ^ Jump up to: a b Bowers 1989, p. 496
  24. ^ Jump up to: a b Podsada, Janice (January 11, 2020). "Small local suppliers flying blind through 737 Max crisis". HeraldNet.com. Archived from the original on January 17, 2020. Retrieved January 17, 2020.
  25. ^ BNSF, MRL move 10,000th Boeing 737 fuselage Archived November 3, 2019, at the Wayback Machine Railway Age February 20, 2018
  26. ^ Jump up to: a b "737 price raised". Aviation Week. January 22, 1968. p. 31. Archived from the original on October 15, 2018. Retrieved October 14, 2018.
  27. ^ Shaw 1999, p. 8
  28. ^ "Airfleets.net 737 Pr.-Nr: 19437 LN:1". Archived from the original on September 19, 2020. Retrieved September 4, 2020.
  29. ^ Sharpe & Shaw 2001, p. 21
  30. ^ "Airliner price index". Flight International. August 10, 1972. p. 183. Archived from the original on January 9, 2018. Retrieved January 9, 2018.
  31. ^ Sharpe & Shaw 2001, p. 41
  32. ^ "737 Airplane Characteristics for Airport Planning" (PDF). Boeing. May 2011. Archived (PDF) from the original on February 7, 2015. Retrieved February 7, 2015.
  33. ^ "About the 737 Family." Archived December 9, 2004, at the Wayback Machine The Boeing Company. Retrieved: December 20, 2007.
  34. ^ Bowers 1989, pp. 498–499
  35. ^ "Southwest Airlines Retires Last of Founding Aircraft; Employees Help Celebrate the Boeing 737-200's Final Flight". swamedia.com. Archived from the original on September 4, 2015. Retrieved August 27, 2015.
  36. ^ "World Airline Census 2018". Flightglobal.com. Archived from the original on November 6, 2018. Retrieved August 21, 2018.
  37. ^ Boeing 737-2T2C/Adv "Boeing 737." Archived September 30, 2007, at the Wayback Machine airliners.net. Retrieved: February 10, 2008.
  38. ^ "The Airplane That Never Sleeps". Boeing. July 15, 2002. Archived from the original on November 29, 2014. Retrieved November 19, 2014.
  39. ^ Carey, Susan (April 13, 2007). "Arctic Eagles Bid Mud Hens Farewell At Alaska Airlines". Wall Street Journal. Archived from the original on February 7, 2015. Retrieved February 7, 2015.
  40. ^ Thisdell and Seymour Flight International 30 July –5 August 2019, p. 36.
  41. ^ "Boeing: Boeing 737 Facts". Boeing. September 6, 2013. Archived from the original on February 15, 2015. Retrieved February 7, 2015.
  42. ^ Jump up to: a b Endres 2001, p. 129
  43. ^ "Next Generation 737 Program Milestones." Archived January 25, 2008, at the Wayback Machine The Boeing Company. Retrieved: January 22, 2008.
  44. ^ "To Save Fuel, Airlines Find No Speck Too Small." The New York Times, June 11, 2008.
  45. ^ "Jet Fuel Price Development". IATA. Archived from the original on April 11, 2015. Retrieved April 10, 2015.
  46. ^ "UAL Cuts Could Be Omen." The Wall Street Journal, June 5, 2008, p. B3.
  47. ^ David Grossman (June 29, 2000). "Why Ted's demise is a boost for business travelers". USA Today. Archived from the original on October 16, 2015. Retrieved November 19, 2014.
  48. ^ "Airline Shares Gain Despite Losses." The Wall Street Journal, July 23, 2008, p. B3.
  49. ^ "Next-Generation 737 Production Winglets". Boeing. Archived from the original on April 28, 2008.
  50. ^ Shaw 1999, p. 7
  51. ^ Endres 2001, p. 126
  52. ^ Jump up to: a b c Endres 2001, p. 128
  53. ^ Sweetman, Bill, All mouth, Air & Space, September 2014, p.14
  54. ^ Garvin 1998, p. 137.
  55. ^ Jump up to: a b Shaw 1999, p. 10
  56. ^ Shaw 1999, pp. 12–13
  57. ^ Redding & Yenne 1997, p. 185
  58. ^ Jump up to: a b FAA Type Certificate Data Sheet A16WE (PDF) (Report). Department of Transportation, Federal Aviation Administration. Archived (PDF) from the original on December 25, 2016. Retrieved July 8, 2015.
  59. ^ Jump up to: a b c d e Shaw 1999, p. 14
  60. ^ "Boeing Delivers 737-400s to CSA Czech Airlines" (Press release). Boeing. February 28, 2000. Archived from the original on September 15, 2020. Retrieved August 30, 2020.
  61. ^ "Boeing 737-400 Freighter". Aircraft Information. Alaska Airlines. Archived from the original on January 22, 2014. Retrieved June 29, 2011.
  62. ^ "The end of an era: Alaska retires unique cargo-passenger 'combi' planes". Alaska Airlines Blog. October 16, 2017. Archived from the original on March 26, 2019. Retrieved July 26, 2018.
  63. ^ Shaw 1999, p. 40
  64. ^ "Southwest Retires Final Boeing 737-500". Aircraft Information. Airways Magazine. Archived from the original on March 7, 2021. Retrieved August 30, 2020.
  65. ^ "ANA Sets Boeing 737-500 Retirement Date". Aircraft Information. Simple Flying. Archived from the original on September 15, 2020. Retrieved August 30, 2020.
  66. ^ Andrew Doyle, Max Kingsley-Jones, Paul Lewis, Guy Norris (May 12, 1999). "Putting the family to work". Flight International. Archived from the original on June 12, 2018. Retrieved June 11, 2018.CS1 maint: multiple names: authors list (link)
  67. ^ "First Boeing 737-700 Goes to Southwest Airlines" (Press release). Boeing. December 17, 1997. Archived from the original on June 9, 2018. Retrieved June 11, 2018.
  68. ^ "U.S. Naval Reserve Gets First Look at Newest Class of Aircraft" Archived May 27, 2008, at the Wayback Machine. DefenseLink (U.S. Department of Defense). Retrieved January 21, 2008.
  69. ^ "Boeing Delivers First 737-700ER to Launch Customer ANA" (Press release). Boeing. February 16, 2007. Archived from the original on June 12, 2018. Retrieved June 11, 2018.
  70. ^ "First Boeing Next-Generation 737-800 Goes To Hapag-Lloyd" (Press release). Boeing. April 23, 1998. Archived from the original on September 15, 2020. Retrieved September 5, 2020.
  71. ^ Derber, Alex (June 14, 2018). "Inside MRO: Boeing 737-800 Not Expected To Peak Until 2021". Aviation Week & Space Technology. Archived from the original on August 18, 2018. Retrieved August 17, 2018.
  72. ^ "FAA Type Certificate Data Sheet" (PDF). Archived (PDF) from the original on December 25, 2016. Retrieved July 1, 2015.
  73. ^ "Boeing and American Airlines Agree on Order for up to 300 Airplanes" (Press release). Boeing. July 20, 2011. Archived from the original on May 15, 2013. Retrieved February 26, 2020.
  74. ^ "Boeing Launches 737 New Engine Family with Commitments for 496 Airplanes from Five Airlines" (Press release). Boeing. August 30, 2011. Archived from the original on August 27, 2012. Retrieved August 30, 2011.
  75. ^ "Boeing officially launches re-engined 737". Flightglobal. August 30, 2011. Archived from the original on February 26, 2020. Retrieved February 26, 2020.
  76. ^ Guy Norris (August 30, 2011). "Boeing Board Gives Go-Ahead To Re-Engined 737". Aviation Week. Archived from the original on August 4, 2017.
  77. ^ "American Orders 460 Narrow Jets from Boeing and Airbus". The New York Times. July 20, 2011. Archived from the original on June 18, 2018. Retrieved August 24, 2017.
  78. ^ "Boeing's 737 MAX takes wing with new engines, high hopes". The Seattle Times. January 29, 2016. Archived from the original on April 9, 2019. Retrieved September 8, 2018.
  79. ^ "Type Certificate Data Sheet No. A16WE" (PDF). FAA. March 8, 2017. Archived (PDF) from the original on November 13, 2017. Retrieved September 8, 2018.
  80. ^ Stephen Trimble (May 16, 2017). "Boeing delivers first 737 Max". Flightglobal. Archived from the original on December 29, 2018. Retrieved September 8, 2018.
  81. ^ Hashim Firdaus (May 22, 2017). "Malindo operates world's first 737 Max flight". FlightGlobal. Archived from the original on September 23, 2018. Retrieved August 19, 2017.
  82. ^ Jump up to: a b Austen, Ian; Gebrekidan, Selam (March 13, 2019). "Trump Announces Ban of Boeing 737 Max Flights". The New York Times. Archived from the original on September 13, 2019. Retrieved January 3, 2020.
  83. ^ Jump up to: a b "Boeing Statement Regarding 737 MAX Production" (Press release). Boeing. December 16, 2019. Archived from the original on December 17, 2019. Retrieved January 9, 2020.
  84. ^ "FAA Updates on Boeing 737 MAX". www.faa.gov. July 1, 2020. Archived from the original on September 1, 2019. Retrieved July 2, 2020.
  85. ^ "Boeing 737 Max: Brazilian airline resumes passenger flights". BBC News. December 9, 2020. Archived from the original on December 9, 2020. Retrieved December 9, 2020.
  86. ^ "Farnborough: Boeing's Execution on 737 MAX Sparkles as MAX 7.5 and MAX 10X Loom". Airways Magazine. July 10, 2016. Archived from the original on July 11, 2016. Retrieved September 6, 2020.
  87. ^ "Boeing confirms 737 Max 7 redesign". FlightGlobal. July 11, 2016. Archived from the original on November 29, 2019. Retrieved September 6, 2020.
  88. ^ "Boeing Upscales 737-700". Aviation International News. July 12, 2016. Archived from the original on May 27, 2021. Retrieved September 6, 2020.
  89. ^ Trimble, Stephen (October 4, 2017). "Boeing starts building first 737 Max 7". FlightGlobal. Archived from the original on May 10, 2019. Retrieved September 6, 2020.
  90. ^ Yeo, Ghim-Lay (January 2, 2018). "Southwest converts options for 40 more 737 Max 8s". FlightGlobal. Archived from the original on April 9, 2019. Retrieved September 6, 2020.
  91. ^ Norris, Guy (March 16, 2018). "Boeing Begins 737-7 Flight Test Program". Aviation Week Network. Archived from the original on October 17, 2018. Retrieved September 6, 2020.
  92. ^ "Boeing Completes 737 MAX 8 Firm Configuration" Archived September 23, 2015, at the Wayback Machine. Boeing, July 23, 2013.
  93. ^ "Boeing Launches 737 MAX 200 with Ryanair" (Press release). Boeing. September 8, 2014. Archived from the original on September 9, 2014. Retrieved September 6, 2020.
  94. ^ Noëth, Bart (November 19, 2018). "Ryanair's first Boeing 737 MAX 200 aircraft has rolled out of Boeing's final assembly line". Aviation24.be. Archived from the original on August 17, 2020. Retrieved September 6, 2020.
  95. ^ "First High-Capacity Boeing 737-8 Enters Flight Test Jan 23, 2019 Guy Norris". Aviation Week Network. Archived from the original on January 26, 2019. Retrieved September 6, 2020.
  96. ^ Clark, Oliver (February 14, 2019). "Ryanair Max to make debut at Stansted". FlightGlobal. Archived from the original on November 29, 2019. Retrieved September 6, 2020.
  97. ^ "Boeing's 737 MAX 9 takes off on first flight". The Seattle Times. April 13, 2017. Archived from the original on August 18, 2020. Retrieved September 6, 2020.
  98. ^ Trimble, Stephen (February 16, 2018). "Boeing 737 Max 9 receives certification". FlightGlobal. Archived from the original on May 10, 2019. Retrieved September 6, 2020.
  99. ^ "Boeing Delivers First 737 MAX 9" (Press release). Boeing. March 21, 2018. Archived from the original on September 11, 2020. Retrieved September 6, 2020.
  100. ^ Norris, Guy (January 10, 2017). "Boeing Defines Final 737 MAX Stretch Offering". Aviation Week & Space Technology. Archived from the original on January 31, 2017. Retrieved September 6, 2020.
  101. ^ Trimble, Stephen (June 19, 2017). "Boeing launches 737 Max 10". Flightglobal. Archived from the original on May 10, 2019. Retrieved September 6, 2020.
  102. ^ Tinseth, Randy (March 6, 2017). "MAX 10X". Boeing. Archived from the original on November 26, 2017. Retrieved September 6, 2020.
  103. ^ "Boeing 737 MAX 10 Reaches Firm Configuration" (Press release). Boeing. February 6, 2018. Archived from the original on September 19, 2020. Retrieved September 6, 2020.
  104. ^ "Why the A321XLR makes sense for Alaska Airlines". Leeham News and Analysis. February 23, 2020. Archived from the original on March 12, 2021. Retrieved February 24, 2020.
  105. ^ "Boeing 737 MAX 10 Makes its Debut" (Press release). Boeing. November 22, 2019. Archived from the original on September 15, 2020. Retrieved September 6, 2020.
  106. ^ "Boeing plans to develop new airplane to replace 737 Max by 2030". Chicago Tribune. November 5, 2014. Archived from the original on November 12, 2014.
  107. ^ Guy Norris and Jens Flottau (December 12, 2014). "Boeing Revisits Past In Hunt For 737/757 Successors". Aviation Week & Space Technology. Archived from the original on December 14, 2014. Retrieved December 14, 2014.
  108. ^ Michael Bruno (February 7, 2018). "Boeing: Still 'A Lot' To Be Decided On NMA". Aviation Week Network. Archived from the original on October 10, 2018. Retrieved January 24, 2020.
  109. ^ "Boeing's NMA in doubt as airlines take fresh look at 737 Max & 757 replacement". The Air Current. October 28, 2019. Archived from the original on October 30, 2019. Retrieved January 24, 2020.
  110. ^ Jon Hemmerdinger (January 23, 2020). "Boeing to take another 'clean sheet' to NMA with focus on pilots". flightglobal. Archived from the original on January 25, 2020. Retrieved January 24, 2020.
  111. ^ "COCKPIT WINDOWS Next-Generation 737, Classic 737, 727, 707 Airplanes" (PDF). PPG Aerospace Transparencies. Archived (PDF) from the original on September 4, 2015. Retrieved August 27, 2015.
  112. ^ "Boeing Next-Generation 737 Gets a Face-Lift". Boeing Media Room. Boeing. Archived from the original on March 26, 2018. Retrieved March 25, 2018.
  113. ^ Wallace, James. "Aerospace Notebook: New Boeing 717 design is bound to lift quite a few eyebrows". seattlepi.com. Hearst Seattle Media, LLC. Archived from the original on July 3, 2018. Retrieved March 25, 2018.
  114. ^ Sharpe & Shaw 2001, p. 37
  115. ^ Jump up to: a b c d Brady 2014, pp. 144–145.
  116. ^ Dekkers, Daniel, et al. (Project 2A2H). [home.deds.nl/~hink07/Report.pdf "Analysis Landing Gear 737-500."][dead link] Hogeschool van Amsterdam. Aviation Studies. October 2008. Retrieved: August 20, 2011.
  117. ^ Volkmann, Kelsey. "Boeing gets OK for new carbon brakes." Archived October 8, 2008, at the Wayback Machine St. Louis Business Journal via bizjournals.com. Retrieved: April 22, 2010.
  118. ^ Wilhelm, Steve. "Mindful of rivals, Boeing keeps tinkering with its 737." Archived October 26, 2012, at the Wayback Machine Puget Sound Business Journal, August 8, 2008. Retrieved: January 21, 2011.
  119. ^ "Boeing Commercial Aircraft - In-Flight Fuel Jettison Capability" (PDF). Boeing. Archived (PDF) from the original on March 10, 2015. Retrieved November 23, 2014.
  120. ^ Cheung, Humphrey. "Troubled American Airlines jet lands safely at LAX." Archived June 6, 2012, at the Wayback Machine tgdaily.com, September 2, 2008. Retrieved: August 20, 2011.
  121. ^ Ostrower, Jon (August 30, 2011). "Boeing designates 737 MAX family". Air Transport Intelligence. Archived from the original on September 25, 2011. Retrieved September 5, 2011.
  122. ^ leehamcoeu (August 9, 2019). "Bjorn's Corner: Fly by steel or electrical wire, Part 3". Leeham News and Analysis. Archived from the original on July 27, 2020. Retrieved January 10, 2020.
  123. ^ NTSB. "NTSB ID: SEA97IA219" (PDF). fss.aero. Archived (PDF) from the original on January 18, 2021. Retrieved January 10, 2020.
  124. ^ "Boeing's MAX, Southwest's 737". theflyingengineer. December 13, 2011. Archived from the original on September 7, 2015. Retrieved August 27, 2015.
  125. ^ Freitag, William; Schulze, Terry (2009). "Blended winglets improve performance" (PDF). Aero Magazine. pp. 9, 12. Archived (PDF) from the original on June 29, 2011. Retrieved July 27, 2011.
  126. ^ Faye, Robert; Laprete, Robert; Winter, Michael (2002). "Blended Winglets". Aero Magazine. Archived from the original on June 29, 2011. Retrieved July 27, 2011.
  127. ^ "Split Scimitar Schedules". aviationpartnersboeing.com. Archived from the original on May 20, 2015. Retrieved May 29, 2015.
  128. ^ "Southwest flies first 737 with new 'split scimitar' winglets". Archived from the original on March 15, 2015. Retrieved May 29, 2015.
  129. ^ "Design, Analysis and Multi-Objective Constrained Optimization of Multi-Winglets" (PDF). Florida International University. Archived (PDF) from the original on September 4, 2015. Retrieved August 27, 2015.
  130. ^ Jump up to: a b c Kingsley-Jones, Max. "Narrow margins: Airbus and Boeing face pressue with the A-320 and 737." flightglobal.com, October 27, 2009. Retrieved: June 23, 2010.
  131. ^ Jump up to: a b "Check Out Boeing's Swanky New High-Tech Interior." Archived January 16, 2011, at the Wayback Machine businessinsider.com. Retrieved: November 1, 2011.
  132. ^ "Continental first North American carrier to offer Boeing's new Sky Interior". Flightglobal. December 29, 2010. Archived from the original on November 29, 2014. Retrieved November 22, 2014.
  133. ^ "Continental Airlines Is First North American Carrier to Fly With Boeing's New Sky Interior". ir.unitedcontinentalholdings.com. United Airlines. December 29, 2010. Archived from the original on November 22, 2014. Retrieved November 22, 2014.
  134. ^ Airlines, Alaska. "Boeing 737-800 Aircraft Information | Alaska Airlines". Alaska Airlines. Archived from the original on May 27, 2021. Retrieved June 21, 2018.
  135. ^ "MAS takes delivery of first 737-800 with Sky Interior". Flightglobal.com. November 1, 2010. Archived from the original on May 15, 2013. Retrieved April 29, 2013.
  136. ^ "Wolkenlos in Seattle – an Bord des neuen Jets von TUIfly." Archived September 1, 2011, at the Wayback Machine podcastexperten, March 7, 2011. Retrieved: May 12, 2011.
  137. ^ Michelle Tan. "Air Force bids farewell to T-43". Army Times Publishing Company. Archived from the original on May 27, 2021. Retrieved January 10, 2020.
  138. ^ Reim, Garrett (December 5, 2018). "US Marine Corps looks to buy two C-40 executive transports". FlightGlobal. Archived from the original on April 25, 2019. Retrieved May 29, 2019 – via Flightglobal.com.
  139. ^ Endres 2001.
  140. ^ Jump up to: a b "The Boeing 737-700/800 BBJ/BBJ2." Archived March 25, 2008, at the Wayback Machine airliners.net. Retrieved: February 3, 2008.
  141. ^ "Boeing Business Jets Launches New Family Member". Boeing. October 16, 2006. Archived from the original on November 29, 2014. Retrieved November 22, 2014.
  142. ^ "Boeing Completes First BBJ 3". www.wingsmagazine.com. Wings. August 14, 2008. Archived from the original on December 14, 2014. Retrieved November 22, 2014.
  143. ^ "Boeing launches 737-800BCF programme". Flightglobal.com. February 24, 2016. Archived from the original on July 25, 2018. Retrieved April 30, 2018.
  144. ^ "Boeing delivers first 737-800BCF to West Atlantic". Flightglobal.com. April 20, 2018. Archived from the original on April 30, 2018. Retrieved April 30, 2018.
  145. ^ "Boeing to launch 737 freighter conversion program" Archived October 3, 2015, at the Wayback Machine. aviationanalysis.net
  146. ^ "Boeing positioned to narrow market share gap". Leeham Co. September 22, 2016. Archived from the original on July 27, 2020. Retrieved January 10, 2020.
  147. ^ Addison Schonland (July 10, 2017). "The Big Duopoly Race". Airinsight. Archived from the original on May 12, 2020. Retrieved January 10, 2020.
  148. ^ "Orders & deliveries viewer". Airbus. Archived from the original on December 30, 2012. Retrieved January 11, 2019.
  149. ^ "Historical Orders and Deliveries 1974–2009" (Microsoft Excel). Airbus S.A.S. January 2010. Archived from the original on December 23, 2010. Retrieved December 10, 2012.
  150. ^ "Airbus O&D". Airbus S.A.S. December 31, 2020. Retrieved January 8, 2021.
  151. ^ "Historical Deliveries". Boeing. December 2015. Archived from the original on February 26, 2020. Retrieved February 5, 2016.
  152. ^ "Boeing: About Boeing Commercial Airplanes". Boeing. December 31, 2020. Retrieved January 13, 2021.
  153. ^ Jump up to: a b "The 737 Story: Little Wonder". flightglobal. February 7, 2006. Archived from the original on July 27, 2020. Retrieved January 9, 2020.
  154. ^ "Boeing airliner deliveries rise 11%". Chicago Tribune. January 4, 2008. Archived from the original on March 15, 2012. Boeing's 737, the world's most widely flown aircraft
  155. ^ O'Sullivan, Matt (January 2, 2009). "Boeing shelves plans for 737 replacement". The Sydney Morning Herald. Archived from the original on November 6, 2012. the 737, the world's most widely flown aircraft
  156. ^ Layne, Rachel (February 26, 2010). "Bombardier's Win May Prod Airbus, Boeing to Upgrade Engines". BusinessWeek. Archived from the original on March 1, 2010. the 737, the world’s most widely flown plane
  157. ^ Dan Thisdell (August 8, 2016). "FlightGlobal airliner census reveals fleet developments". Archived from the original on July 26, 2020. Retrieved March 16, 2020.
  158. ^ Dan Thisdell (August 14, 2017). "787 stars in annual airliner census". Archived from the original on August 27, 2019.
  159. ^ "FAA orders checks on 9,300 Boeing 737 planes for possible switch failures". Reuters. July 15, 2021. Retrieved August 8, 2021.
  160. ^ "Airbus Orders and Deliveries" (XLS). Airbus. June 30, 2021. Retrieved August 8, 2021.
  161. ^ "Boeing 737 Facts". boeing.com. Boeing. Archived from the original on February 15, 2015. Retrieved November 18, 2014.
  162. ^ "Boeing looks to sell more 737-based military jets". SeattlePi. June 9, 2011. Archived from the original on August 24, 2015. Retrieved August 27, 2015.
  163. ^ Kingsley-Jones, Max (April 22, 2009). "6,000 and counting for Boeing's popular little twinjet". Flight International. Archived from the original on July 27, 2020. Retrieved January 9, 2020.
  164. ^ "Boeing's 737 Turns 8,000: The Best-Selling Plane Ever Isn't Slowing". Bloomberg Business Week. April 16, 2014. Archived from the original on April 16, 2014. Retrieved April 16, 2014.
  165. ^ "737 tops 10,000 orders". Boeing. July 12, 2012. Archived from the original on July 26, 2012.
  166. ^ Max Kingsley-Jones (March 13, 2018). "How Boeing built 10,000 737s". Flightglobal. Archived from the original on March 15, 2018. Retrieved March 15, 2018.
  167. ^ David Kaminski-Morrow (November 15, 2019). "A320's order total overtakes 737's as Max crisis persists". Flightglobal. Archived from the original on November 16, 2019. Retrieved November 16, 2019.
  168. ^ Hawkins, Andrew J. (January 14, 2020). "Boeing had more cancellations than orders in 2019 as 737 Max crisis deepens". The Verge. Archived from the original on January 25, 2020. Retrieved January 25, 2020.
  169. ^ LeBeau, Phil (January 14, 2020). "Boeing posts negative commercial airplane orders in 2019 for first time in decades". CNBC. Archived from the original on January 25, 2020. Retrieved January 25, 2020.
  170. ^ "DOC 8643 - Aircraft Type Designators". International Civil Aviation Organization. Archived from the original on July 10, 2017. Retrieved November 22, 2014.
  171. ^ Brady 2017
  172. ^ "Boeing Conducts Successful First Flight of Australia's 737 Airborne Early Warning & Control Aircraft". Boeing.mediaroom.com. May 20, 2004. Archived from the original on November 14, 2017. Retrieved June 27, 2017.
  173. ^ "P-8A Poseidon" (PDF). Boeing.mediaroom.com. May 31, 2015. Archived (PDF) from the original on September 14, 2015. Retrieved June 27, 2017.
  174. ^ "Boeing Completes Successful 737 MAX First Flight". Boeing.mediaroom.com. January 29, 2016. Archived from the original on February 7, 2016. Retrieved February 6, 2016.
  175. ^ "Boeing 737 incident occurrences" Archived October 26, 2012, at the Wayback Machine. Aviation-Safety.net, January 9, 2021. Retrieved: January 9, 2021.
  176. ^ "Boeing 737 Accident summary" Archived August 4, 2011, at the Wayback Machine. Aviation-Safety.net, January 5, 2020. Retrieved: January 8, 2020.
  177. ^ "Boeing 737 Accident Statistics" Archived March 23, 2012, at the Wayback Machine. Aviation-Safety.net, January 9, 2021. Retrieved: January 9, 2021
  178. ^ "Statistical Summary of Commercial Jet Airplane Accidents – Accident Rates by Airplane Type" (PDF). boeing.com. Boeing. August 2014. p. 19. Archived (PDF) from the original on November 1, 2014. Retrieved November 19, 2014.
  179. ^ "Report says Boeing 737 rudder problems linger". TimesDaily. September 12, 1999. Archived from the original on October 7, 2018. Retrieved July 10, 2016.
  180. ^ Uncontrolled Descent and Collision With Terrain, United Airlines Flight 585, Boeing 737-200, N999UA, 4 Miles South of Colorado Springs Municipal Airport, Colorado Springs, Colorado, March 3, 1991 (PDF). National Transportation Safety Board. March 27, 2001. NTSB/AAR-01-01. Archived (PDF) from the original on October 2, 2015. Retrieved January 17, 2016.
  181. ^ Aircraft Accident Report - Uncontrolled Descent and Collision With Terrain, USAir Flight 427, Boeing 737-300, N513AU, Near Aliquippa, Pennsylvania, September 8, 1994 (PDF). National Transportation Safety Board. March 24, 1999. NTSB/AAR-99-01. Archived (PDF) from the original on October 14, 2012. Retrieved July 10, 2016.
  182. ^ "Boeing Model 737 Series Airplanes". www1.airweb.faa.gov. Archived from the original on October 7, 2018. Retrieved May 21, 2016.
  183. ^ "Boeing Resumes 737 MAX Production". MediaRoom. Archived from the original on January 12, 2021. Retrieved January 10, 2021.
  184. ^ "Bellingham Police Arrest WWU Student in Melee". BBC News. BBC. July 2, 2021. Retrieved July 2, 2021.
  185. ^ "Boeing 737-130". The Museum of Flight. The Museum of Flight. Archived from the original on April 24, 2017. Retrieved March 24, 2017.
  186. ^ "N9009U United Airlines Boeing 737-200". Planespotters.net. Archived from the original on July 12, 2018. Retrieved July 11, 2018.
  187. ^ "N213US USAir Boeing 737-200". Planespotters.net. Archived from the original on July 12, 2018. Retrieved July 11, 2018.
  188. ^ "Airframe Dossier - Boeing 737-281, c/n 20561, c/r LV-WTX". Aerial Visuals. AerialVisuals.ca. Archived from the original on March 24, 2017. Retrieved March 24, 2017.
  189. ^ "CC-CSK Aerolineas Del Sureste Boeing 737-200". Planespotters.net. Archived from the original on July 12, 2018. Retrieved July 11, 2018.
  190. ^ "Trasladaron el Boeing 737-200 al motel en Concón (Actualizado con fotos)". ModoCharlie. December 24, 2012. Archived from the original on July 12, 2018. Retrieved July 11, 2018.
  191. ^ "WestJet donates 737-200 aircraft to BCIT Aerospace". BCIT. October 1, 2003. Archived from the original on July 3, 2004. Retrieved March 24, 2017.
  192. ^ "C-GWJT WestJet Boeing 737-200 - cn 21262 / 470". Planespotters.net. Archived from the original on March 25, 2017. Retrieved March 24, 2017.
  193. ^ "Boeing 737-200". Kansas Aviation Museum. June 11, 2014. Archived from the original on January 21, 2017. Retrieved March 24, 2017.
  194. ^ "N29SW Ryan International Airlines Boeing 737-200 - cn 21340 / 499". Planespotters.net. Archived from the original on March 24, 2017. Retrieved March 24, 2017.
  195. ^ "C-GIPW Air Canada Tango Boeing 737-200". Planespotters.net. Archived from the original on July 12, 2018. Retrieved July 11, 2018.
  196. ^ "N740AS Alaska Airlines Boeing 737-200 - cn 22578 / 767". Planespotters.net. Archived from the original on March 24, 2017. Retrieved March 24, 2017.
  197. ^ "Boeing 737-2H4/Adv - Avior Airlines". Airliners.net. Archived from the original on July 12, 2018. Retrieved July 11, 2018.
  198. ^ "ROYAL THAI AIR FORCE MUSEUM, DON MUEANG" (PDF). December 26, 2016. Archived (PDF) from the original on March 4, 2017. Retrieved March 24, 2017.
  199. ^ "60201 Royal Thai Air Force Boeing 737-200 - cn 23059 / 980". Planespotters.net. Archived from the original on March 25, 2017. Retrieved March 24, 2017.
  200. ^ "Boeing 737-300". Frontiers of Flight Museum. Frontiers of Flight Museum. June 23, 2012. Archived from the original on March 25, 2017. Retrieved March 24, 2017.
  201. ^ "Boeing 737-301 - Institute of Technical Education - ITE". March 6, 2013. Archived from the original on June 1, 2017. Retrieved March 20, 2013.
  202. ^ "Pukeko". SAA Museum Society. Archived from the original on December 15, 2016. Retrieved March 24, 2017.
  203. ^ "Civilian Aviation • Home to the Civil Aviation Enthusiast • View topic - G-CELS Boeing 737-300". www.civilianaviation.co.uk. Archived from the original on March 17, 2018. Retrieved March 17, 2018.
  204. ^ "737-300". Pima Air & Space Museum. Pimaair.org. Archived from the original on September 21, 2017. Retrieved March 24, 2017.
  205. ^ "Boeing 737 Airplane Characteristics for Airport Planning" (PDF). Boeing Commercial Airplanes. September 2013. Archived (PDF) from the original on February 7, 2015. Retrieved February 7, 2015.
  206. ^ "737 MAX". Boeing. Technical Specs. Archived from the original on November 27, 2018. Retrieved December 10, 2016.
  207. ^ "737 MAX Airport Compatibility Brochure" (PDF). Boeing. June 2017. Archived (PDF) from the original on September 28, 2018. Retrieved April 17, 2018.
  208. ^ Jump up to: a b c Butterworth-Heinemann (2001). "Civil jet aircraft design". Elsevier. Boeing Aircraft. Archived from the original on January 27, 2017. Retrieved December 10, 2016.
  209. ^ Jump up to: a b c "Type Certificate Data Sheet No. A16WE" (PDF). FAA. February 15, 2018. Archived (PDF) from the original on April 18, 2018. Retrieved April 17, 2018.
  210. ^ "737 MAX Airplane Characteristics for Airport Planning" (PDF). Boeing. August 2017. Archived (PDF) from the original on October 23, 2017. Retrieved December 3, 2018.
  211. ^ Jump up to: a b "737-300/-400/-500" (PDF). startup. Boeing. 2007. Archived (PDF) from the original on May 18, 2017. Retrieved December 10, 2016.
  212. ^ Jump up to: a b Gerard Frawley. "Boeing 737-100/200 Technical data & specifications". The International Directory of Civil Aircraft. Archived from the original on December 21, 2016. Retrieved December 10, 2016.
  213. ^ Jump up to: a b "737-200" (PDF). Startup. Boeing. 2007. Archived (PDF) from the original on October 5, 2016. Retrieved July 30, 2016.
  214. ^ "Boeing revises "obsolete" performance assumptions". Flight Global. August 3, 2015. Archived from the original on October 5, 2016. Retrieved December 10, 2016.

Bibliography[]

  • Anderson, David F.; Eberhardt, Scott (2009). Understanding Flight. Chicago: McGraw Hill Professional. ISBN 978-0-07-162696-5. Archived from the original on October 16, 2015. Retrieved October 14, 2015.
  • Brady, Chris (October 17, 2014). The Boeing 737 Technical Guide (Pocket Budget Version). Lulu Enterprises. ISBN 978-1-291-77318-7.
  • Brady, Chris (2017). The Boeing 737 Technical Guide. Kingsley, Frodsham, Cheshire, UK: Tech Pilot Services. ISBN 978-1-4475-3273-6.
  • Bowers, Peter M. (1989). Boeing Aircraft Since 1916. Annapolis, Md.: Naval Institute Press. ISBN 978-0-87021-037-2.
  • Endres, Günter (2001). The Illustrated Directory of Modern Commercial Aircraft. St. Paul, Minn.: MBI Publishing Company. ISBN 978-0-7603-1125-7.
  • Garvin, Robert V. (1998). Starting Something Big: The Commercial Emergence of GE Aircraft Engines. Reston, VA: American Institute of Aeronautics and Astronautics. ISBN 1-56347-289-9.
  • Redding, Robert; Yenne, Bills (1997). Boeing: Planemaker to the World. Berkeley, Cal.: Thunder Bay Pres. ISBN 978-1-57145-045-6.
  • Sharpe, Michael; Shaw, Robbie (2001). Boeing 737-100 and 200. St. Paul, Minn.: MBI Publishing Company. ISBN 978-0-7603-0991-9.
  • Shaw, Robbie (1995). Boeing Jetliners. London: Osprey Aerospace. ISBN 978-1-85532-528-9.
  • Shaw, Robbie (1999). Boeing 737-300 to -800. St. Paul, Minnesota: MBI Publishing Company. ISBN 978-0-7603-0699-4.
  • Sutter, Joe (2006). 747: Creating the World's First Jumbo Jet and Other Adventures from a Life in Aviation. Washington, D.C.: Smithsonian Books. ISBN 978-0-06-088242-6.

External links[]

Retrieved from ""