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In addition, there are "squeeze tests" on the cockpit sides, fuel tank, and nosebox. The cockpit must survive a 25 kN (5,600 lb f) force with no failure; for the fuel tank, 12.5 kN (2,800 lb f) is applied. A maximum 3 mm (0.12 in) deformation is allowed. [4]
A Cosworth DFV 3-litre V8 Formula One engine Renault 1.5 litre turbo engine. In 1966, with sports cars capable of outrunning Formula One cars thanks to much larger and more powerful engines, the FIA increased engine capacity to 3.0 L atmospheric and 1.5 L compressed engines. [27]
In race refuelling outlawed, fuel tank required to be in centre of car, between driver and engine, maximum fuel capacity allowed on cars set at 220 litres per race to try and reduce the output of turbo engines, drivers required to have FIA super licence before they can compete in F1, concrete retaining walls permitted alongside guard rails. [26 ...
A modern Formula One car capable of developing up to six G of lateral cornering force and a downforce equivalent to twice its weight at 190 km/h (120 mph). [ 65 ] [ 66 ] The car is designed to create the maximum amount of downforce for the minimal amount of drag with the configuration often modified to the requirements of a particular track. [ 58 ]
The Mercedes-Benz W196 (sometimes written as the Mercedes-Benz W 196 R [1]) was a Formula One racing car produced by Mercedes-Benz for the 1954 and 1955 F1 seasons. Successor to the W194, in the hands of Juan Manuel Fangio and Stirling Moss it won 9 of 12 races entered and captured the only two world championships in which it competed.
The Honda RA272 was a Formula One racing car designed by Yoshio Nakamura and Shoichi Sano for the 1965 Formula One season. It was the first Japanese car to win in Formula One, achieving victory at the 1965 Mexican Grand Prix after leading every lap with driver Richie Ginther. The win came just two years after Honda started producing road cars ...