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Airspeed

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Title: Airspeed  
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Subject: Visual flight (aeronautics), Air data inertial reference unit, Ground speed, Speed to fly, Primary flight display
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Airspeed

An airspeed indicator is a flight instrument that displays airspeed. This airspeed indicator has standardized markings for a multiengine airplane
Aircraft have pitot tubes for measuring airspeed

Airspeed is the speed of an aircraft relative to the air. Among the common conventions for qualifying airspeed are: indicated airspeed ("IAS"), calibrated airspeed ("CAS"), true airspeed ("TAS"), equivalent airspeed ("EAS") and density airspeed. During cruising flight at altitudes, airspeeds, and temperatures common for airliners, the four speeds trace a shape that looks like the mathematical square root symbol (√). Starting with indicated airspeed, calibrated is normally very close to the indicated airspeed, while equivalent is normally less than both indicated and calibrated, and true is normally higher than the other three. [1]

The measurement and indication of airspeed is ordinarily accomplished on board an aircraft by an airspeed indicator ("ASI") connected to a pitot-static system. The pitot-static system comprises one or more pitot probes (or tubes) facing the on-coming air flow to measure pitot pressure (also called stagnation, total or ram pressure) and one or more static ports to measure the static pressure in the air flow. These two pressures are compared by the ASI to give an IAS reading.

Contents

  • Indicated airspeed 1
  • Calibrated airspeed 2
  • Equivalent airspeed 3
  • True airspeed 4
  • Groundspeed 5
  • See also 6
  • References 7
  • External links 8

Indicated airspeed

Indicated airspeed (IAS) is the airspeed indicator reading (ASIR) uncorrected for instrument, position, and other errors. From current EASA definitions: Indicated airspeed means the speed of an aircraft as shown on its pitot static airspeed indicator calibrated to reflect standard atmosphere adiabatic compressible flow at sea level uncorrected for airspeed system errors.[2]

Outside the former Soviet bloc, most airspeed indicators show the speed in knots (nautical miles per hour). Some light aircraft have airspeed indicators showing speed in statute miles per hour or kilometers per hour.

An airspeed indicator is a differential pressure gauge with the pressure reading expressed in units of speed, rather than pressure. The airspeed is derived from the difference between the ram air pressure from the pitot tube, or stagnation pressure, and the static pressure. The pitot tube is mounted facing forward; the static pressure is frequently detected at static ports on one or both sides of the aircraft. Sometimes both pressure sources are combined in a single probe, a pitot-static tube. The static pressure measurement is subject to error due to inability to place the static ports at positions where the pressure is true static pressure at all airspeeds and attitudes. The correction for this error is the position error correction (PEC) and varies for different aircraft and airspeeds. Further errors of 10% or more are common if the airplane is flown in “uncoordinated” flight.

Calibrated airspeed

Calibrated airspeed (CAS) is indicated airspeed corrected for instrument errors, position error (due to incorrect pressure at the static port) and installation errors.

Calibrated airspeed values less than the speed of sound at standard sea level (661.4788 knots) are calculated as follows:

V_c=A_0\sqrt{5\Bigg[\bigg(\frac{q_c}{P_0}+1\bigg)^\frac{2}{7}-1\Bigg]} minus position and installation error correction.

where
V_c \, is the calibrated airspeed,
q_c \, is the impact pressure (inches Hg) sensed by the pitot tube,
P_0 \, is 29.92126 inches Hg; static air pressure at standard sea level,
A_0 \, is 661.4788 knots;, speed of sound at standard sea level.

Units other than knots and inches of mercury can be used, if used consistently.

This expression is based on the form of Bernoulli's equation applicable to a perfect, incompressible gas. The values for P_0 and A_0 are consistent with the ISA i.e. the conditions under which airspeed indicators are calibrated.

Equivalent airspeed

Equivalent airspeed (EAS) is defined as the speed at sea level that would produce the same incompressible dynamic pressure as the true airspeed at the altitude at which the vehicle is flying. An aircraft in forward flight is subject to the effects of compressibility. Likewise, the calibrated airspeed is a function of the compressible impact pressure. EAS, on the other hand, is a measure of airspeed that is a function of incompressible dynamic pressure. Structural analysis is often in terms of incompressible dynamic pressure, so that equivalent airspeed is a useful speed for structural testing. At standard sea level pressure, calibrated airspeed and equivalent airspeed are equal. Up to about 200 knots CAS and 10,000 ft (3,000 m) the difference is negligible, but at higher speeds and altitudes CAS must be corrected for compressibility error to determine EAS. The significance of equivalent airspeed is that, at Mach numbers below the onset of wave drag, all of the aerodynamic forces and moments on an aircraft are proportional to the square of the equivalent airspeed. The equivalent airspeed is closely related to the indicated airspeed shown by the airspeed indicator. Thus, the handling and 'feel' of an aircraft, and the aerodynamic loads upon it, at a given equivalent airspeed, are very nearly constant and equal to those at standard sea level irrespective of the actual flight conditions.

True airspeed

True airspeed (V_t) is the speed of the aircraft relative to the atmosphere. The true airspeed and heading of an aircraft constitute its velocity relative to the atmosphere. The vector relationship between the true airspeed and the speed with respect to the ground (V_g) is:

V_t \ = \ V_g - V_w

where

V_w = Windspeed vector

Aircraft flight instruments, however, don't compute true airspeed as a function of groundspeed and windspeed. They use impact and static pressures as well as a temperature input. True airspeed is equivalent airspeed that is corrected for pressure altitude and temperature (which define density). The result is the true physical speed of the aircraft relative to the surrounding body of air. At standard sea level conditions, true airspeed, calibrated airspeed and equivalent airspeed are all equal.

The simplest way to compute true airspeed is using a function of Mach number:

V_t \ = \ a_0 \cdot M \sqrt{\frac{T}{T_0}}

where

a_0 = Speed of sound at standard sea level (661.4788 knots)
M = Mach number
T = Temperature (kelvin)
T_0 = Standard sea level temperature (288.15 kelvin)

Or if Mach number is not known:

V_t \ = \ a_0 \cdot \sqrt{5\left[\left(\frac{q_c}{P}+1\right)^\frac{2}{7}-1\right] \cdot \frac{T}{T_0}}

where

a_0 = Speed of sound at standard sea level (661.4788 knots)
q_c = Impact pressure (inHg)
P = Static pressure (inHg)
T = Temperature (kelvin)
T_0 = Standard sea level temperature (288.15 kelvin)

The above equation is only for Mach numbers less than 1.0.

True airspeed differs from the equivalent airspeed because the airspeed indicator is calibrated at SL, ISA conditions, where the air density is 1.225 kg/m³, whereas the air density in flight normally differs from this value.

\frac {1}{2} \rho V^2 = q = \frac {1}{2} \rho_0 V_e^2

Thus

\frac {V}{V_e} = \sqrt{ \frac {\rho_0 }{ \rho}}
where
\rho \, is the air density at the flight condition.

The air density may be calculated from:

\frac {\rho }{\rho_0 } = \frac {p \, T_0}{p_0 \, T}
where
p \, is the air pressure at the flight condition,
p_0 \, is the air pressure at sea level = 1013.2 hPa,
T \, is the air temperature at the flight condition,
T_0 \, is the air temperature at sea level, ISA = 288.15 K.

Source: Aerodynamics of a Compressible Fluid. Liepmann and Puckett 1947. Publishers John Wiley & Sons Inc.

Groundspeed

Ground speed is the speed of the aircraft relative to the ground rather than through the air, which can itself be moving relative to the ground.

See also

References

  1. ^ http://www.calpoly.edu/~rcumming/Airspeed.pdf
  2. ^ http://easa.europa.eu/ws_prod/g/doc/Agency_Mesures/Certification_Spec/decision_ED_2003_11_RM.pdf
  • Glauert H., The Elements of Aerofoil and Airscrew Theory, Chapter 2, Cambridge University Press, 1947
  • Liepmann H. W. and A. E. Pucket, Introduction to Aerodynamics of a Compressible Fluid, John Wiley and Sons, Inc. 1947

External links

  • A free windows calculator which converts between various airspeeds (true / equivalent / calibrated) according to the appropriate atmospheric (standard and not standard!) conditions
  • Calculate True and Equivalent Airspeed
  • Calculate Ground Speed and Wind Triangles
  • True, Equivalent, and Calibrated Airspeed at MathPages
  • Measurement of Aircraft Airspeed and Altitude (NASA Publication 1046)
  • Newbyte airspeed converter
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