Subsonic—Mach numbers below 0.75
Transonic—Mach numbers from 0.75 to 1.20
Supersonic—Mach numbers from 1.20 to 5.00
Hypersonic—Mach numbers above 5.00
While flights in the transonic and supersonic ranges are common occurrences for military aircraft, civilian jet aircraft normally operate in a cruise speed range of Mach 0.7 to Mach 0.90.
The speed of an aircraft in which airflow over any part of the aircraft or structure under consideration first reaches (but does not exceed) Mach 1.0 is termed “critical Mach number” or “Mach Crit.” Thus, critical Mach number is defined as the maximum operating limit speed. is expressed in knots calibrated airspeed (KCAS), while is expressed in Mach number. The limit is usually associated with operations at lower altitudes and deals with structural loads and flutter. The limit is associated with operations at higher altitudes and is usually more concerned with compressibility effects and flutter. At lower altitudes, structural loads and flutter are of concern; at higher altitudes, compressibility effects and flutter are of concern.
Adherence to these speeds prevents structural problems due to dynamic pressure or flutter, degradation in aircraft control response due to compressibility effects (efig., Mach Tuck, aileron reversal, or buzz), and separated airflow due to shock waves resulting in loss of lift or vibration and buffet. Any of these phenomena could prevent the pilot from being able to adequately control the aircraft.
For example, an early civilian jet aircraft had a limit of 306 KCAS up to approximately FL 310 (on a standard day). At this altitude (FL 310), an of 0.82 was approximately equal to 306 KCAS. Above this altitude, an of 0.82 always equaled a KCAS less than 306 KCAS and, thus, became the operating limit as you could not reach the limit without first reaching the limit. For example, at FL 380, an of 0.82 is equal to 261 KCAS.
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