Cessna 172
The Cessna 172 Skyhawk is an American four-seat, single-engine, high wing, fixed-wing aircraft made by the Cessna Aircraft Company.[2] First flown in 1955,[2] more 172s have been built than any other aircraft.[3] It was developed from the 1948 Cessna 170 but with tricycle landing gear rather than conventional landing gear. The Skyhawk name was originally used for a trim package, but was later applied to all standard-production 172 aircraft, while some upgraded versions were marketed as the Cutlass.
Cessna 172 Skyhawk | |
---|---|
Cessna 172S | |
Role | Civil utility aircraft |
National origin | United States |
Manufacturer | Cessna Textron Aviation |
First flight | June 12, 1955 |
Introduction | 1956 |
Status | In production |
Produced | 1956–1986, 1996–present |
Number built | 44,000+[1] |
Developed from | Cessna 170 |
Variants | Cessna T-41 Mescalero |
Developed into | Cessna 175 Skylark |
Measured by its longevity and popularity, the Cessna 172 is the most successful aircraft in history. Cessna delivered the first production model in 1956, and as of 2015, the company and its partners had built more than 44,000 units.[1][4][5] The aircraft remains in production today.
A general aviation airplane, the Skyhawk's main competitors have been the Beechcraft Musketeer and Grumman AA-5 series (neither currently in production), the Piper Cherokee, and, more recently, the Diamond DA40 and Cirrus SR20.[6]
Design and development
The Cessna 172 started life as a tricycle landing gear variant of the taildragger Cessna 170, with a basic level of standard equipment. In January 1955, Cessna flew an improved variant of the Cessna 170, a Continental O-300-A-powered Cessna 170C with larger elevators and a more angular tailfin.[7] Although the variant was tested and certified, Cessna decided to modify it with a tricycle landing gear, and the modified Cessna 170C flew again on June 12, 1955.[7] To reduce the time and cost of certification, the type was added to the Cessna 170 type certificate as the Model 172.[7] Later, the 172 was given its own type certificate.[8][9] The 172 became an overnight sales success, and over 1,400 were built in 1956, its first full year of production.[10]
Early 172s were similar in appearance to the 170s, with the same straight aft fuselage and tall landing gear legs, although the 172 had a straight tailfin while the 170 had a rounded fin and rudder. In 1960, the 172A incorporated revised landing gear and the swept-back tailfin, which is still in use today.
The final aesthetic development, found in the 1963 172D and all later 172 models, was a lowered rear deck allowing an aft window. Cessna advertised this added rear visibility as "Omni-Vision."[11]
Production halted in the mid-1980s, but resumed in 1996 with the 160 hp (120 kW) Cessna 172R Skyhawk. Cessna supplemented this in 1998 with the 180 hp (135 kW) Cessna 172S Skyhawk SP.
Modifications
The Cessna 172 may be modified via a wide array of supplemental type certificates (STCs), including increased engine power and higher gross weights. Available STC engine modifications increase power from 180 to 210 hp (134 to 157 kW), add constant-speed propellers, or allow the use of automobile gasoline. Other modifications include additional fuel tank capacity in the wing tips, added baggage compartment tanks, added wheel pants to reduce drag, or enhanced landing and takeoff performance and safety with a STOL kit.[12] The 172 has also been equipped with the 180 hp (134 kW) fuel injected Superior Air Parts Vantage engine.[13]
Operational history
World records
From December 4, 1958, to February 7, 1959, Robert Timm and John Cook set the world record for (refueled) flight endurance in a used Cessna 172, registration number N9172B. They took off from McCarran Airfield in Las Vegas, Nevada, and landed back at McCarran Airfield after 64 days, 22 hours, 19 minutes and 5 seconds in a flight covering an estimated 150,000 miles, over 6 times further than flying around the world at the equator. The flight was part of a fund-raising effort for the Damon Runyon Cancer Fund.[14][15] The aircraft is on display at the McCarran International Airport near Las Vegas, Nevada in the United States of America.[16]
Variants
Cessna has historically used model years similar to a U.S. auto manufacturer, with sales of new models typically starting a few months prior to the actual calendar year.
- 172
The basic 172 appeared in November 1955 as the 1956 model and remained in production until replaced by the 172A in early 1960. It was equipped with a Continental O-300 145 hp (108 kW) six-cylinder, air-cooled engine and had a maximum gross weight of 2,200 lb (998 kg). Introductory base price was US$8,995 and a total of 4,195 were constructed over the five years.[11]
- 172A
The 1960 model 172A introduced a swept-back tailfin and rudder, as well as float fittings. The price was US$9,450 and 1,015 were built.[11]
- 172B
The 172B was introduced in late 1960 as the 1961 model and featured a shorter landing gear, engine mounts lengthened three inches (76 mm), a reshaped cowling, and a pointed propeller spinner.[17] For the first time, the "Skyhawk" name was applied to an available deluxe option package. This added optional equipment included full exterior paint to replace the standard partial paint stripes and standard avionics. The gross weight was increased to 2,250 lb (1,021 kg).[11]
- 172C
The 1962 model was the 172C. It brought to the line an optional autopilot and a key starter to replace the previous pull-starter. The seats were redesigned to be six-way adjustable. A child seat was made optional to allow two children to be carried in the baggage area. The 1962 price was US$9,895. A total of 889 172C models were produced.[11]
- 172D
The 1963 172D model introduced the lower rear fuselage with a wraparound Omni-Vision rear window and a one-piece windshield. Gross weight was increased to 2,300 lb (1,043 kg), where it would stay until the 172P. New rudder and brake pedals were also added. 1,146 172Ds were built.[11]
1963 also saw the introduction of the 172D Powermatic, powered by a 175 horsepower (130 kW) Continental GO-300E, increasing cruise speed by 11 mph (18 km/h) relative to the standard 172D. In reality this was not a new model, but rather a Cessna 175 Skylark that had been rebranded to overcome a reputation for poor engine reliability. The ploy was unsuccessful and neither the Powermatic nor the Skylark were produced again after the 1963 model year.[11][18]
- 172E
The 172E was the 1964 model. The electrical fuses were replaced with circuit breakers. The 172E also featured a redesigned instrument panel. 1,401 172Es were built that year as production continued to increase.[11]
- 172F
The 1965 model 172F introduced electrically operated flaps to replace the previous lever-operated system.[8] It was built in France by Reims Cessna as the F172 until 1971. These models formed the basis for the U.S. Air Force's T-41A Mescalero primary trainer, which was used during the 1960s and early 1970s as initial flight screening aircraft in USAF Undergraduate Pilot Training (UPT). Following their removal from the UPT program, some extant USAF T-41s were assigned to the U.S. Air Force Academy for the cadet pilot indoctrination program, while others were distributed to Air Force aero clubs.[19]
A total of 1,436 172Fs were completed.[11]
- 172G
The 1966 model year 172G introduced a more pointed spinner and sold for US$12,450 in its basic 172 version and US$13,300 in the upgraded Skyhawk version. 1,597 were built.[11]
- 172H
The 1967 model 172H was the last Continental O-300 powered model. It also introduced a shorter-stroke nose gear oleo to reduce drag and improve the appearance of the aircraft in flight. A new cowling was used, introducing shock-mounts that transmitted lower noise levels to the cockpit and reduced cowl cracking. The electric stall warning horn was replaced by a pneumatic one.
The 1967 model 172H sold for US$10,950 while the Skyhawk version was US$12,750.[20] A total of 839 172Hs were built.[11]
- 172I
The 1968 model marked the beginning of the Lycoming-powered 172s.
The "I" model was introduced with a Lycoming O-320-E2D engine of 150 hp (112 kW), an increase of 5 hp (3.7 kW) over the Continental powerplant. The increased power resulted in an increase in optimal cruise from 130 mph (209 km/h) TAS to 131 mph (211 km/h) TAS (true airspeed). There was no change in the sea level rate of climb at 645 ft (197 m) per minute.
The 172I also introduced the first standard "T" instrument arrangement. The 172I saw an increase in production over the "H" model, with 1,206 built.[11]
- 172J
For 1968, Cessna planned to replace the 172 with a newly designed aircraft called the 172J, featuring the same general configuration but with a more sloping windshield, a strutless cantilever wing, a more stylish interior, and various other improvements. However, the popularity of the previous 172 with Cessna dealers and flight schools prompted the cancellation of the replacement plan, and the 172J was instead introduced as the 177 and sold alongside the 172. The 172J designation was never used for a production aircraft.
- 172K
The next model year was the 1969 "K" model. The 1969 172K had a redesigned tailfin cap and reshaped rear windows. Optional long-range 52 US gal (197 l) wing fuel tanks were offered. The rear windows were slightly enlarged by 16 square inches (103 cm2). The 1969 model sold for US$12,500 for the 172 and US$13,995 for the Skyhawk, with 1,170 made.[11]
The 1970 model was still called the 172K, but sported fiberglass, downward-shaped, conical wing tips. Fully articulated seats were offered as well. Production in 1970 was 759 units.[11]
- 172L
The 172L, sold during 1971 and 1972, replaced the main landing gear legs (which were originally flat spring steel) with tapered, tubular steel gear legs. The new gear had a width that was increased by 12 in (30 cm).[11] The new tubular gear was lighter, but required aerodynamic fairings to maintain the same speed and climb performance as experienced with the flat steel design. The "L" also had a plastic fairing between the dorsal fin and vertical fin to introduce a greater family resemblance to the 182's vertical fin.
The 1971 model sold for US$13,425 in the 172 version and US$14,995 in the Skyhawk version. 827 172Ls were sold in 1971 and 984 in 1972.[11]
- 172M
The 172M of 1973–76 gained a drooped wing leading edge for improved low-speed handling. This was marketed as the "camber-lift" wing.
The 1974 172M was also the first to introduce the optional 'II' package which offered higher standard equipment, including a second nav/comm radio, an ADF and transponder. The baggage compartment was increased in size, and nose-mounted dual landing lights were available as an option.[11]
The 1975 model 172M sold for US$16,055 for the 172, US$17,890 for the Skyhawk and US$20,335 for the Skyhawk II.
In 1976, Cessna stopped marketing the aircraft as the 172 and began exclusively using the "Skyhawk" designation. This model year also saw a redesigned instrument panel to hold more avionics. Among other changes, the fuel and other small gauges were relocated to the left side for improved pilot readability compared with the earlier 172 panel designs. Total production of "M" models was 7306 over the four years it was manufactured.[11]
- 172N
The Skyhawk N, or Skyhawk/100 as Cessna termed it, was introduced for the 1977 model year. The "100" designation indicated that it was powered by a Lycoming O-320-H2AD, 160 horsepower (119 kW) engine designed to run on 100-octane fuel, whereas all previous engines used 80/87 fuel. But this engine proved troublesome[21] and it was replaced by the similarly rated O-320-D2J to create the 1981 172P.
The 1977 "N" model 172 also introduced rudder trim as an option and standard "pre-selectable" flaps. The price was US$22,300, with the Skyhawk/100 II selling for US$29,950.[11]
The 1978 model brought a 28-volt electrical system to replace the previous 14-volt system. Air conditioning was an option.[11]
The 1979 model "N" increased the flap-extension speed to 110 knots (204 km/h).[11]
The "N" remained in production until 1980 when the 172P or Skyhawk P was introduced.[11]
- 172O
There was no "O" ("Oscar") model 172, to avoid confusion with the number zero.[11]
- 172P
The 172P, or Skyhawk P, was introduced in 1981 to solve the reliability problems of the "N" engine by replacing it with the Lycoming O-320-D2J.
The "P" model also saw the maximum flap deflection decreased from 40 degrees to 30 to allow a gross weight increase from 2,300 lb (1,043 kg) to 2,400 lb (1,089 kg). A wet wing was optional, with a capacity of 62 US gallons of fuel.[11]
The price of a new Skyhawk P was US$33,950, with the Skyhawk P II costing US$37,810 and the Nav/Pac equipped Skyhawk P II selling for US$42,460.[11]
In 1982, the "P" saw the landing lights moved from the nose to the wing to increase bulb life. The 1983 model added some minor soundproofing improvements and thicker windows.[11]
A second door latch pin was introduced in 1984.[17]
Production of the "P" ended in 1986, and no more 172s were built for eleven years as legal liability rulings in the US had pushed Cessna's insurance costs too high, resulting in dramatically increasing prices for new aircraft.
There were only 195 172s built in 1984, a rate of fewer than four per week.[11]
- 172Q Cutlass
The 172Q was introduced in 1983 and given the name Cutlass to create an affiliation with the 172RG, although it was actually a 172P with a Lycoming O-360-A4N engine of 180 horsepower (134 kW). The aircraft had a gross weight of 2,550 lb (1,157 kg) and an optimal cruise speed of 122 knots (226 km/h) compared to the 172P's cruise speed of 120 knots (222 km/h) on 20 hp (15 kW) less. It had a useful load that was about 100 lb (45 kg) more than the Skyhawk P and a rate of climb that was actually 20 feet (6 m) per minute lower, due to the higher gross weight. Production ended after only three years when all 172 production stopped.[11]
- 172R
The Skyhawk R was introduced in 1996 and is powered by a derated Lycoming IO-360-L2A producing a maximum of 160 horsepower (120 kW) at just 2,400 rpm. This is the first Cessna 172 to have a factory-fitted fuel-injected engine.
The 172R's maximum takeoff weight is 2,450 lb (1,111 kg). This model year introduced many improvements, including a new interior with soundproofing, an all new multi-level ventilation system, a standard four point intercom, contoured, energy absorbing, 26g front seats with vertical and reclining adjustments and inertia reel harnesses.
- 172S
The Cessna 172S was introduced in 1998 and is powered by a Lycoming IO-360-L2A producing 180 horsepower (134 kW). The maximum engine rpm was increased from 2,400 rpm to 2,700 rpm resulting in a 20 hp (15 kW) increase over the "R" model. As a result, the maximum takeoff weight was increased to 2,550 lb (1,157 kg). This model is marketed under the name Skyhawk SP, although the Type Certification data sheet specifies it is a 172S.[22][23]
The 172S is built primarily for the private owner-operator and is, in its later years, offered with the Garmin G1000 avionics package and leather seats as standard equipment.[24]
As of 2009, only the S model is in production.[25]
- Cessna 172RG Cutlass
Cessna introduced a retractable landing gear version of the 172 in 1980 and named it the Cutlass 172RG.
The Cutlass featured a variable-pitch, constant-speed propeller and a more powerful Lycoming O-360-F1A6 engine of 180 horsepower (130 kW). The 172RG sold for about US$19,000 more than the standard 172 of the same year and produced an optimal cruise speed of 140 knots (260 km/h), compared to 122 knots (226 km/h) for the contemporary 160 horsepower (120 kW) version.[11]
The 172RG did not find wide acceptance in the personal aircraft market because of higher initial and operating costs accompanied by mediocre cruising speed, but was adopted by many flight schools since it met the specific requirements for "complex aircraft" experience necessary to obtain a Commercial Pilot certificate (the role for which it was intended), at relatively low cost. Between 1980 and 1984 1,177 RGs were built, with a small number following before production ceased in 1985.
While numbered and marketed as a 172, the 172RG was actually certified on the Cessna 175 type certificate.[18]
Special versions
- Reims FR172 and Cessna R172K Hawk XP
The FR172 Reims Rocket was produced by Reims Aviation in France from the late 1960s to the mid-1970s. It was powered by a Rolls-Royce built, fuel-injected, Continental IO-360-H(B) 210 hp (160 kW) engine with a constant-speed propeller.[26] Variants included the FR172E until FR172J.
The Reims Rocket led to Cessna producing the R172K Hawk XP, a model available from 1977 to 1981 from both Wichita and Reims. This configuration featured a fuel-injected, Continental IO-360K (later IO-360KB) derated to 195 hp (145 kW) with a two-bladed, constant-speed propeller. The Hawk XP was capable of a 131-knot (243 km/h) cruise speed.
Owners claimed that the increased performance of the "XP" didn't compensate for its increased purchase price and the higher operating costs associated with the larger engine. The aircraft was well accepted for use on floats, however, as the standard 172 is not a strong floatplane, even with only two people on board, while the XP's extra power improves water takeoff performance dramatically.[11]
While numbered and marketed as 172s, the R172J and R172K models are actually certified on the Cessna 175 type certificate.[18]
- Turbo Skyhawk JT-A
Model introduced in July 2014 for 2015 customer deliveries, powered by a 155 hp (116 kW) Continental CD-155 diesel engine installed by the factory under a supplemental type certificate. Initial retail price in 2014 was $435,000.[27] The model has a top speed of 131 kn (243 km/h) and burns 3 U.S. gallons (11 L; 2.5 imp gal) per hour less fuel than the standard 172.[28] As a result, the model has an 885 nmi (1,639 km) range, an increase of more than 38% over the standard 172.[29] This model is a development of the proposed and then cancelled Skyhawk TD.[30] Cessna has indicated that the JT-A will be made available in 2016.[31]
In reviewing this new model Paul Bertorelli of AVweb said: "I’m sure Cessna will find some sales for the Skyhawk JT-A, but at $420,000, it’s hard to see how it will ignite much market expansion just because it’s a Cessna. It gives away $170,000 to the near-new Redbird Redhawk conversion which is a lot of change to pay merely for the smell of a new airplane. Diesel engines cost more than twice as much to manufacture as gasoline engines do and although their fuel efficiency gains back some of that investment, if the complete aircraft package is too pricey, the debt service will eat up any savings, making a new aircraft not just unattractive, but unaffordable. I haven’t run the numbers on the JT-A yet, but I can tell from previous analysis that there are definite limits."[30]
The model was certified by both EASA and the FAA in June 2017.[32] It was discontinued in May 2018, due to poor sales as a result of the aircraft's high price, which was twice the price of the same aircraft as a diesel conversion. The aircraft remains available as an STC conversion from Continental Motors, Inc.[33][34]
- Electric-powered 172
In July 2010, Cessna announced it was developing an electrically powered 172 as a proof-of-concept in partnership with Bye Energy. In July 2011, Bye Energy, whose name had been changed to Beyond Aviation, announced the prototype had commenced taxi tests on 22 July 2011 and a first flight would follow soon.[35][36] In 2012, the prototype, using Panacis batteries, engaged in multiple successful test flights.[37] The R&D project was not pursued for production.
Canceled model
- 172TD
On October 4, 2007, Cessna announced its plan to build a diesel-powered model, to be designated the 172 Skyhawk TD ("Turbo Diesel") starting in mid-2008. The planned engine was to be a Thielert Centurion 2.0, liquid-cooled, two-liter displacement, dual overhead cam, four-cylinder, in-line, turbo-diesel with full authority digital engine control with an output of 155 hp (116 kW) and burning Jet-A fuel. In July 2013, the 172TD model was canceled due to Thielert's bankruptcy. The aircraft was later refined into the Turbo Skyhawk JT-A, which was certified in June 2014 and discontinued in May 2018.[3][28][38][39]
Simulator company Redbird Flight uses the same engine and reconditioned 172 airframes to produce a similar model, the Redbird Redhawk.[40][41]
Premier Aircraft Sales also announced in February 2014 that it would offer refurbished 172 airframes equipped with the Continental/Thielert Centurion 2.0 diesel engine.[42]
Military operators
A variant of the 172, the T-41 Mescalero was used as a trainer with the United States Air Force and Army. In addition, the United States Border Patrol uses a fleet of 172s for aerial surveillance along the Mexico-US border.
From 1972 to 2019 the Irish Air Corps used the Reims version for aerial surveillance and monitoring of cash, prisoner and explosive escorts, in addition to army cooperation and pilot training roles.[43]
For T-41 operators, see Cessna T-41 Mescalero.
- FAPA/DAA[44]
- Austrian Air Force 1× 172
- Bolivian Air Force 3× 172K[45]
- Chilean Army 18× R172K (retired)[46]
- Colombian Air Force – To replace Cessna T-41s used for primary training with deliveries from June 2021.[47]
- Guatemalan Air Force 6× 172K[49]
- Honduran Air Force 3[50]
- Indonesian Air Force
- Iraqi Air Force[51]
- Air Reconnaissance Unit 2[55]
- Lithuanian Air Force 1[56]
- Malagasy Air Force 4× 172M[57]
- Pakistan Air Force 4× 172N[60]
- Suriname Air Force (One in service for sale)[66]
Accidents and incidents
- On February 13, 1964, Ken Hubbs, second baseman for the Chicago Cubs and winner of the Rookie of the Year Award and the Gold Glove Award, was killed when the Cessna 172 he was flying crashed near Bird Island in Utah Lake.[67]
- On October 23, 1964, David Box, lead singer for The Crickets on their 1960 release version of "Peggy Sue Got Married" and "Don't Cha Know" and later a solo artist, was killed when the Cessna 172 he was aboard crashed in northwest Harris County, Texas, while en route to a performance. Box was the second lead vocalist for The Crickets to die in a plane crash, following Buddy Holly.[68][69]
- On August 31, 1969, American professional boxer Rocky Marciano was killed when the Cessna 172 in which he was a passenger crashed on approach to an airfield outside Newton, Iowa.[70]
- On September 25, 1978, a Cessna 172, N7711G, and Pacific Southwest Airlines Flight 182, a Boeing 727, collided over San Diego, California. There were 144 fatalities, two in the Cessna 172, 135 on the PSA Flight 182 and seven on the ground.[71]
- On May 28, 1987, a rented Reims Cessna F172P, registered D-ECJB, was used by German teenage pilot Mathias Rust in an unauthorized flight from Helsinki-Malmi Airport through Soviet airspace to land near the Red Square in Moscow, all without being intercepted by Soviet air defense.[72]
- On April 9, 1990, Atlantic Southeast Airlines Flight 2254, an Embraer EMB 120 Brasilia, collided head-on with a Civil Air Patrol Cessna 172, N99501, while en route from Gadsden Municipal Airport to Hartsfield-Jackson Atlanta International Airport. The Cessna crashed, killing two occupants, but the Brasilia made a safe emergency landing.[73]
- On January 5, 2002, high school student Charles J. Bishop stole a Cessna 172, N2371N, and intentionally crashed it into the side of the Bank of America Tower in downtown Tampa, Florida, killing only himself and otherwise causing very little damage.[74][75]
- On April 6, 2009, a Cessna 172N, C-GFJH, belonging to Confederation College in Thunder Bay, Ontario, Canada, was stolen by a student who flew it into United States airspace over Lake Superior. The 172 was intercepted and followed by NORAD F-16s, finally landing on Highway 60 in Ellsinore, Missouri, after a seven-hour flight. The student pilot, a Canadian citizen born in Turkey, Adam Dylan Leon, formerly known as Yavuz Berke, suffered from depression and was attempting to commit suicide by being shot down, but was instead arrested shortly after landing. On November 3, 2009, he was sentenced to two years in a US federal prison after pleading guilty to all three charges against him: interstate transportation of a stolen aircraft, importation of a stolen aircraft, and illegal entry into the US. College procedures at the time allowed easy access to aircraft and keys were routinely left in them.[76][77][78][79][80]
- On November 11, 2021, Glen de Vries, co-founder of Medidata Solutions and Blue Origin space tourist, died in the crash of a 172 near Hampton Township, New Jersey.[81]
Specifications (172R)
General characteristics
- Crew: one
- Capacity: three passengers
- Length: 27 ft 2 in (8.28 m)
- Wingspan: 36 ft 1 in (11.00 m)
- Height: 8 ft 11 in (2.72 m)
- Wing area: 174 sq ft (16.2 m2)
- Aspect ratio: 7.32
- Airfoil: modified NACA 2412
- Empty weight: 1,691 lb (767 kg)
- Gross weight: 2,450 lb (1,111 kg)
- Fuel capacity: 56 US gallons (212 litres)
- Powerplant: 1 × Lycoming IO-360-L2A four cylinder, horizontally opposed aircraft engine, 160 hp (120 kW)
- Propellers: 2-bladed metal, fixed pitch
Performance
- Cruise speed: 122 kn (140 mph, 226 km/h)
- Stall speed: 47 kn (54 mph, 87 km/h) (power off, flaps down)[84]
- Never exceed speed: 163 kn (188 mph, 302 km/h) (IAS)[8]
- Range: 696 nmi (801 mi, 1,289 km) with 45 minute reserve, 55% power, at 12,000 feet (3,700 m)
- Service ceiling: 13,500 ft (4,100 m)
- Rate of climb: 721 ft/min (3.66 m/s)
- Wing loading: 14.1 lb/sq ft (68.6 kg/m2)
Avionics
- Optional Garmin G1000 primary flight display
See also
- 1955 in aviation (first flight)
Related development
- Cessna 150
- Cessna 152
- Cessna 170
- Cessna 175 Skylark
- Cessna 177 Cardinal
- Cessna T-41 Mescalero
Aircraft of comparable role, configuration, and era
- Aero Commander 100
- Beechcraft Musketeer
- Diamond DA40
- Grumman Cheetah
- Piper Cherokee
- Vulcanair V1.0
- Yak-12
Related lists
- List of aircraft
- List of civil aircraft
- List of most produced aircraft
References
- Flight International, June 20, 2017, p. 24.
- "Cessna Skyhawk" Archived 2013-04-04 at the Wayback Machine (2013), Cessna Aircraft Company. Retrieved 2013-04-12.
- Russ Niles (October 4, 2007). "Cessna to Offer Diesel Skyhawk". Archived from the original on March 5, 2012. Retrieved October 5, 2007.
- Robert Goyer (January 19, 2012). "Cessna 172: Still Relevant". Archived from the original on September 29, 2013. Retrieved October 2, 2013.
{{cite journal}}
: Cite journal requires|journal=
(help) - Cessna homepage: Skyhawk Archived 2015-02-15 at the Wayback Machine. Retrieved 2015-01-22
- "Cirrus vs. Cessna: A student pilot's comparative analysis by Patricio Puga | Coastflight". Coast Flight Training San Diego. Archived from the original on May 11, 2018. Retrieved May 10, 2018.
- Simpson, Rod (June 2009). "Cessna 172 – Simply, the World's Most Successful Light Aircraft?". Air-Britain Aviation World. Air-Britain. 61 (120): 158–163. ISSN 1742-996X.
- Federal Aviation Administration (February 2006). "Cessna 172 Type Certificate Data Sheet" (PDF). Archived (PDF) from the original on October 11, 2010. Retrieved February 21, 2010.
- Federal Aviation Administration (November 2004). "Cessna 170 Type Certificate Data Sheet" (PDF). Archived from the original (PDF) on June 8, 2011. Retrieved February 21, 2010.
- Clark, Anders (1 January 2015). "Cessna 172 Skyhawk Archived 2015-08-14 at the Wayback Machine". Disciples of Flight. Retrieved 12 August 2015
- Clarke, Bill: The Cessna 172 First Edition. TAB Books, 1987. ISBN 0830609121
- "Airframe Additions". Archived from the original on May 26, 2008. Retrieved April 28, 2010. AOPA Pilot, May/July 1994
- Superior Air Parts. "Superior Skyhawk SV". superiorairparts.com. Archived from the original on May 18, 2018. Retrieved April 17, 2018.
- "Trivia on Time and History 3:53 p.m. Longest Air Flight in History Begins". trivia-library.com. Archived from the original on February 4, 2016. Retrieved April 4, 2015.
- Ruffin, Steven A (2005). Aviation's Most Wanted: The Top 10 book of Winged Wonders, Lucky Landings and Other Aerial Oddities. Washington, D.C.: Potomac Books. p. 320. ISBN 1574886746.
- By (October 25, 2021). "The Longest Ever Flight Was Over 64 Days In A Cessna 172". Hackaday. Retrieved October 27, 2021.
- Phillips, Edward H: Wings of Cessna, Model 120 to the Citation III, Flying Books, 1986. ISBN 0911139052
- Federal Aviation Administration (March 2003). "Type certificate data sheet no. 3a17" (PDF). Archived from the original (PDF) on February 27, 2009. Retrieved November 13, 2008.
- "Broad Area Review – T3A". fas.org. May 13, 1998. Archived from the original on April 9, 2015. Retrieved April 4, 2015.
- Simpson 1991, p. 98
- Cessna Owner Organization (November 11, 2020). "H2AD Engine". cessnaowner.org. Archived from the original on November 11, 2020. Retrieved February 2, 2021.
- Cessna Aircraft Company (December 2007). "Skyhawk SP Specification and Description". Archived from the original on March 7, 2008. Retrieved March 9, 2008.
- Federal Aviation Administration (February 2008). "Type certificate data sheet no. 3a12". Archived from the original on November 18, 2016. Retrieved March 9, 2008.
- Cessna Aircraft Company (2008). "Skyhawk SP Your Next Wing Tips". Archived from the original on February 29, 2008. Retrieved March 9, 2008.
- Cessna Aircraft Company (2008). "Cessna Skyhawk SP". Archived from the original on February 3, 2009. Retrieved January 29, 2009.
- "Federal Aviation Administration (December 2006). "Type certificate data sheet no. A18EU"" (PDF). Archived (PDF) from the original on December 15, 2016.
- Thurber, Matt. "AirVenture Report: 2014 Archived 2014-09-04 at the Wayback Machine" AINonline, 1 September 2014. Accessed: 4 September 2014.
- Niles, Russ (July 28, 2014). "Textron Introduces Diesel 172". AVweb. Archived from the original on July 30, 2014. Retrieved July 29, 2014.
- "Cessna Turbo Skyhawk JT-A". txtav.com. Archived from the original on October 20, 2016. Retrieved October 20, 2016.
- Bertorelli, Paul (July 30, 2014). "AirVenture: Diesel, Drones and High Energy". AVweb. Archived from the original on July 30, 2014. Retrieved July 30, 2014.
- Bertorelli, Paul (May 12, 2015). "Has Cessna Suddenly Grown Cold On Diesel?". avweb.com. Aviation Publishing Group. Archived from the original on May 18, 2015. Retrieved May 13, 2015.
- Grady, Mary (June 6, 2017). "Turbo Skyhawk JT-A Certified". AVweb. Archived from the original on July 21, 2018. Retrieved June 8, 2017.
- "Cessna discontinues Turbo Skyhawk JT–A". www.aopa.org. September 5, 2018. Archived from the original on May 11, 2018. Retrieved May 10, 2018.
- AVweb Staff (May 10, 2018). "Cessna Ends Diesel Skyhawk Production". AVweb. Retrieved May 11, 2018.
- Grady, Mary (October 2010). "Electric 172 May Fly Early Next Year". AVweb. Archived from the original on June 11, 2011. Retrieved October 20, 2010.
- Grady, Mary (July 2011). "Electric Cessna 172 Starts Taxi Tests". AVweb. Archived from the original on October 8, 2012. Retrieved July 30, 2011.
- "Electric Cessna Makes Multiple Flights on Lithium Batteries". evworld.com. Archived from the original on November 20, 2016. Retrieved October 20, 2016.
- Goyer, Robert: "Skyhawk With a Bang", Flying magazine April 2008, pp. 64–68. Hachette Filipacchi US Media
- Aircraft Owners and Pilots Association (May 2008). "Cessna puts diesel airplane line on ice". Archived from the original on May 5, 2008. Retrieved May 2, 2008.
- Bertorelli, Paul (July 28, 2013). "Redbird Launches a Diesel Skyhawk Conversion Project". AVweb. Archived from the original on July 30, 2014. Retrieved July 29, 2013.
- Bertorelli, Paul (September 9, 2013). "Video: Redbird's Redhawk Diesel – A Detailed Look". AVweb. Archived from the original on July 30, 2014. Retrieved September 12, 2013.
- Niles, Russ (February 20, 2014). "Premier Offers 172 Diesel Package". AVweb. Archived from the original on February 24, 2014. Retrieved February 22, 2014.
- "Air Corps – Defence Forces". military.ie. Archived from the original on November 26, 2010. Retrieved April 4, 2015.
- Fontanellaz, Cooper & Matos 2020, pp. 13, 28
- Andrade 1982, p. 27
- Andrade 1982, p. 45
- Allport, Dave (October 2020). "Military News". Air International. Vol. 99, no. 4. p. 11. ISSN 0306-5634.
- Andrade 1982, p. 57
- Andrade 1982, p. 95
- Andrade 1982, p. 97
- Strategy Page (February 2008). "Iraq Seeks Cessna Solution". Archived from the original on February 20, 2008. Retrieved February 19, 2008.
- Andrade 1982, p. 61
- "Cessna 172H". Óglaigh na hÉireann (Defence Forces Ireland). 2014. Archived from the original on March 25, 2014. Retrieved April 27, 2014.
- Corps, Irish Air (June 22, 2019). "Yesterday marked a significant day in Air Corps history, after 47 years the FR172H was stood down from operational service.These aircraft were purchased in 1972 for border surveillance operations & served in various roles since then from explosive escorts to wildlife surveys.pic.twitter.com/onZJ7TeoJa".
- Andrade 1982, p. 147
- "Special forces Cessna for Lithuanian Air Force". AirForces Monthly. Key Publishing. October 2019. p. 12.
- Andrade 1982, p. 151
- Hagedorn 1993, p. 39.
- "Nicaragua Air Force Aircraft Types". www.aeroflight.co.uk.
- Andrade 1982, p. 172
- "Naval Air Group Historical Events". NAG.navy.mil.ph. Naval Air Group Philippine Navy. Archived from the original on December 1, 2013. Retrieved December 1, 2013.
- "Philippines receives 4 training aircraft from US". news.abs-cbn.com.
- Andrade 1982, p. 189
- Taylor, John: Jane's Pocket Book of Military Transport and Training Aircraft, p. 67. Macmillan Publishing Inc, 1974. LCCN 73-15288
- Andrade 1982, p. 193
- De Overheid (19 April 2014), Oenebare Verkoop Archived 2015-04-02 at the Wayback Machine, retrieved 15 March 2015
- "Memories of Ken Hubbs Live On : Nearly 30 Years Later, the Town of Colton Still Is Recovering From His Death at 22". Los Angeles Times. July 5, 1993. Retrieved September 20, 2019.
- Hub Stuff (January 2004). "Just a Day Away" (PDF). Archived from the original (PDF) on June 15, 2004. Retrieved May 13, 2010.
{{cite magazine}}
: Cite magazine requires|magazine=
(help) - "David Box". n.d. Archived from the original on March 3, 2016. Retrieved May 13, 2010.
- "Rocky Marciano". check-six.com. Archived from the original on February 26, 2015. Retrieved April 4, 2015.
- "Aircraft Accident Report 79-5 (AAR-79-5)" (PDF). National Transportation Safety Board, hosted by PSA history.org. April 20, 1979. Archived from the original (PDF) on February 28, 2008. Retrieved February 16, 2008.
- coptercrazy (n.d.). "Listing of Production Reims F172". Archived from the original on March 14, 2005. Retrieved December 23, 2007.
- Aviation Safety Network (July 2009). "Accident Description". Archived from the original on October 25, 2012. Retrieved July 28, 2009.
- "Small, stolen plane slams into Tampa skyscraper", (archived from the original), CNN, 5 January 2002. Retrieved 5 January 2012
- Koch, Kathleen (January 7, 2002). "Police: Tampa pilot voiced support for bin Laden". europe.cnn.com. Archived from the original on August 16, 2002. Retrieved December 12, 2013.
- "Stolen Cessna's Pilot Captured". ABC News. Archived from the original on April 8, 2009. Retrieved April 6, 2009.
- Canadian Broadcasting Corporation (April 2009). "Pilot charged after plane leads U.S. fighter jets over 4 states". CBC News. Archived from the original on April 8, 2009. Retrieved April 7, 2009.
- Niles, Russ (April 2009). "Pilot Arrested After Plane Chase". Archived from the original on April 11, 2009. Retrieved April 7, 2009.
- Niles, Russ (April 2009). "School Reviews Security After 172 Theft (Corrected)". Archived from the original on April 14, 2009. Retrieved April 7, 2009.
- Canadian Broadcasting Corporation (November 2009). "Canadian jailed for flying stolen plane into U.S." CBC News. Archived from the original on November 7, 2009. Retrieved November 4, 2009.
- Fisher, Kristin; Muntean, Pete (November 12, 2021). "Blue Origin astronaut Glen de Vries dies in plane crash". CNN. Retrieved November 12, 2021.
- Cessna (2009). "Cessna Skyhawk Performance". Archived from the original on August 14, 2010. Retrieved August 22, 2010.
- Cessna (May 2010). "Skyhawk 172R Specification and Description" (PDF). Archived from the original (PDF) on May 11, 2011. Retrieved August 22, 2010.
- Jackson 2003, pp. 588–589
Bibliography
- Andrade, John (1982). Militair 1982. London: Aviation Press Limited. ISBN 0907898017.
- Fontanellaz, Adrien; Cooper, Tom; Matos, Jose Augusto (2020). War of Intervention in Angola, Volume 3: Angolan and Cuban Air Forces, 1975–1985. Warwick, UK: Helion & Company Publishing. ISBN 978-1913118617.
- Hagedorn, Daniel P. (1993). Central American and Caribbean Air Forces. Tonbridge, Kent, UK: Air-Britain (Historians) Ltd. ISBN 0851302106.
- Jackson, Paul (2003). Jane's All The World's Aircraft 2003–2004. Coulsdon, UK: Jane's Information Group. ISBN 0710625375.
- Simpson, R W (1991). Airlife's General Aviation. Shrewsbury, England: Airlife Publishing. ISBN 185310194X.