마하수 (Mach Number) (M: Mach Number)
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Definition
항공기의 속도와 국지 음속의 비율로, 압축성 기류 영역에서의 비행을 특성화하는 데 사용된다.
What Is Mach Number?
Mach number (M) is the ratio of an aircraft's true airspeed to the local speed of sound in the surrounding medium. Named after Austrian physicist Ernst Mach, it is the fundamental parameter for characterizing flight in compressible flow regimes. At Mach 1, an aircraft travels at exactly the speed of sound; below Mach 1 is subsonic flight; above is supersonic. The speed of sound varies with temperature — at sea level on a standard day (15°C) it is approximately 340 m/s (661 knots), while at 35,000 ft (–56°C) it drops to about 295 m/s (573 knots).
How It Works
Flight regimes are classified by Mach number:
- Subsonic (M < 0.8): Airflow around the aircraft is entirely below the speed of sound. Standard aerodynamic principles apply.
- Transonic (M 0.8–1.2): Mixed flow — some airflow over the wings accelerates to supersonic while the freestream remains subsonic. Shockwaves form on wing surfaces, causing wave drag, buffet, and control anomalies. Most jet airliners cruise in this regime (M 0.78–0.90).
- Supersonic (M 1.2–5.0): Shockwaves anchor ahead of the aircraft. Wave drag is a dominant concern. Specialized wing designs (delta, swept, ogival) manage shockwave behavior.
- Hypersonic (M > 5.0): Extreme aerodynamic heating dominates. Relevant to spacecraft reentry and experimental vehicles.
Modern jet airliners are assigned a Mach operating limit (MMO) — the maximum speed before dangerous compressibility effects occur. The Boeing 777's MMO is Mach 0.89; the 787's is Mach 0.90.
Significance in Aviation
Mach number determines the entire aerodynamic design philosophy of an aircraft. The flight envelope has a Mach boundary that cannot be exceeded in normal operations. High-Mach aircraft require swept or delta wings to delay the onset of shockwave formation, thinner airfoil profiles, and area-ruled fuselages. Autopilots and flight management systems actively monitor Mach number and automatically reduce thrust or lower the nose if MMO is approached.
Real-World Impact
The Concorde cruised at Mach 2.04 (~2,179 km/h) at 60,000 ft, reducing London–New York flight time to under 3.5 hours versus 7+ hours for subsonic jets. The SR-71 Blackbird flew at Mach 3.3+, requiring titanium construction to withstand aerodynamic heating above 300°C. Today, Boom Supersonic's Overture aims for Mach 1.7 commercial service by the late 2020s, while standard long-haul jets like the Boeing 787 cruise at Mach 0.85 to optimize the fuel burn–speed tradeoff.
Related Terms
항력 (Drag)
비행 방향과 반대로 평행하게 작용하여 항공기의 운동에 저항하는 공기역학적 힘.
비행 포락선 (Flight Envelope)
항공기가 안전하게 운용할 수 있도록 인증된 대기속도, 고도, 하중 계수 및 받음각의 정의된 범위.
음속 장벽 (Sound Barrier)
항공기가 음속(Mach 1)에 접근할 때 경험하는 급격한 항력 증가 현상으로, 한때 비행 속도의 절대적 물리적 한계로 여겨졌다.
초음속 여객기 (SST)
음속보다 빠르게 순항하도록 설계된 상업 항공기 범주로, 영불 합작 Concorde와 소련의 Tupolev Tu-144가 대표적이며 1970~2000년대에 운항했다.
난류 (Turbulence)
항공기의 고도, 자세, 속도에 급격한 변화를 일으키는 불규칙하고 혼란스러운 공기 운동.