Information AboutSupersonic |
| CATEGORIES ABOUT SUPERSONIC | |
| sound | |
| aerospace engineering | |
| aerodynamics | |
| aviation terminology | |
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Navy F/A-18E/F Super Hornet in Transonic flight.]] Any speed over the Speed Of Sound ( Mach 1), which is approximately 340 M/s , 1,087 Ft/s , 761 Mph or 1,225 Km/h in air at sea level, is said to be supersonic. Speeds greater than 5 times the speed of sound are sometimes referred to as Hypersonic . Speeds where only some parts of the air around an object (such as the ends of rotor blades) reach supersonic speeds are labelled Transonic (typically somewhere between Mach 0.8 and Mach 1.2). Sounds are travelling vibrations (pressure waves) in an elastic medium. In gases sound travels longitudinally at different speeds, mostly depending on the Molecular Mass and Temperature of the gas; ( Pressure has a little effect). Since air temperature and composition varies significantly with altitude, Mach Number s for aircraft can change without airspeed varying. In water at Room Temperature supersonic can be considered as any speed greater than 1,440 m/s or 4,724 ft/s. In solids, sound waves can be longitudinal or transverse and have even higher velocities. Supersonic Fracture is crack motion faster than the speed of sound in a Brittle material. This phenomenon was first discovered by scientists from the Max Planck Institute for Metals Research in Stuttgart ( Markus J. Buehler and Huajian Gao ) and IBM Almaden Research Center in San Jose, California ( Farid F. Abraham ). SUPERSONIC OBJECTS Many modern Fighter Aircraft are supersonic, but Concorde and the Tupolev Tu-144 were the only Supersonic Passenger Aircraft . Since Concorde's final retirement flight on November 26 2003 , there are no supersonic passenger aircraft left in service. Some large Bombers , such as the Tupolev Tu-160 and Rockwell / Boeing B-1B are also supersonic-capable. The F-22 and Eurofighter are among the first fighters to be able to sustain supersonic flight for prolonged periods of time without the use of Afterburners . Most modern Firearm Munition s are supersonic, with rifle Projectiles often travelling at speeds approaching Mach 3. Most Spacecraft , most notably the Space Shuttle are supersonic at least during portions of their reentry, though the effects on the spacecraft are reduced by low air pressures. During ascent, launch vehicles generally avoid going supersonic below 30 km (~98,400 feet) to reduce air drag. Note that the Speed Of Sound decreases somewhat with altitude, due to lower temperatures found there (typically up to 25 km). At even higher altitudes the temperature starts increasing, with the corresponding increase in the speed of sound. eXtreme High Altitude Conditions Calculator BREAKING THE SOUND BARRIER See Also: Sound barrier Supersonic Aerodynamics are simpler than subsonic because the airsheets at different points along the plane often can't affect each other. Supersonic jets and rocket vehicles require several times greater thrust to push through the extra drag experienced within the Transonic region (around Mach 0.85-1.5). At these speeds Aerospace Engineer s can gently guide air around the Fuselage of the aircraft without producing new Shock Wave s but any change in cross sectional area further down the vehicle leads to shock waves along the body. Designers use the Supersonic Area Rule and the Whitcomb Area Rule to minimize sudden changes in size. It should be kept in mind, however, that the aerodynamic principles behind a supersonic aircraft are often more complex than described above due to the fact that such an aircraft must be efficient and stable at supersonic, transonic ''and'' subsonic flight. At high speeds Aerodynamic Heating can occur, so an aircraft must be designed to operate and function under very high temperatures. For example, the SR-71 Blackbird jet could fly continuously at Mach 3.1 while some parts were above 315°C (600°F). |
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