Arnold Pieper
December 13th 03, 02:11 AM
Although TAS is not as useful for glider pilots, as IAS and GS, some recent
posts seem to sugget that TAS is not a clear concept for many pilots.
Some people even consider it a "Sophisticated calculation", which is really
astonishing.
The advent of GPSs with the easy read out of Ground Speed has led to further
missunderstanding of what TAS really is or how it's calculated.
There's nothing "complex" about it, pilots have been doing it for decades,
way before electronic cockpits, using a simple piece of plastic called a
circular E6B computer (under 10 bucks in any pilot shop).
Simply slide the circular calculator so that in the TAS window your current
Altitude is directly above the Outside temperature.
The TAS can then be read on the outer scale, associated with the IAS in the
inner scale.
Don't have an OAT (Outside Air Temperature) reading ?
Try and get it over the radio from someone who does, or calculate it based
on the temperature on the ground below you (stardard lapse rate).
There's also a rule of thumb to "estimate" TAS without considering
temperature, which is :
Add 2% to the IAS for every 1000ft of altitude above sea level.
Its just a rough estimate, and I don't recommend using it for wind
calculations, since small innacuracies here can cause some crazy wind
vectors.
From a Glider pilot's perspective, TAS is used mostly for calculating the
Wind in flight, whether or not you have a GPS.
Modern gliders usually have a Thermometer in the dash somewhere, with the
temperature sensor installed in some ventilation opening (out of direct
sulinght).
On-board flight computers such as ILEC, Zander, Cambridge, already come with
the temperature sensor, so that they can calculate TAS by themselves, and
thus know what the real glider's performance is, as well as what the real
wind is.
Without TAS they can't calculate wind accurately, although some use
Thermalling drift to update the wind vectors, which works well if you
thermal a lot.
Long cross-countries in mountain wave may involve very little circling, and
that's when you need a better method.
AP
posts seem to sugget that TAS is not a clear concept for many pilots.
Some people even consider it a "Sophisticated calculation", which is really
astonishing.
The advent of GPSs with the easy read out of Ground Speed has led to further
missunderstanding of what TAS really is or how it's calculated.
There's nothing "complex" about it, pilots have been doing it for decades,
way before electronic cockpits, using a simple piece of plastic called a
circular E6B computer (under 10 bucks in any pilot shop).
Simply slide the circular calculator so that in the TAS window your current
Altitude is directly above the Outside temperature.
The TAS can then be read on the outer scale, associated with the IAS in the
inner scale.
Don't have an OAT (Outside Air Temperature) reading ?
Try and get it over the radio from someone who does, or calculate it based
on the temperature on the ground below you (stardard lapse rate).
There's also a rule of thumb to "estimate" TAS without considering
temperature, which is :
Add 2% to the IAS for every 1000ft of altitude above sea level.
Its just a rough estimate, and I don't recommend using it for wind
calculations, since small innacuracies here can cause some crazy wind
vectors.
From a Glider pilot's perspective, TAS is used mostly for calculating the
Wind in flight, whether or not you have a GPS.
Modern gliders usually have a Thermometer in the dash somewhere, with the
temperature sensor installed in some ventilation opening (out of direct
sulinght).
On-board flight computers such as ILEC, Zander, Cambridge, already come with
the temperature sensor, so that they can calculate TAS by themselves, and
thus know what the real glider's performance is, as well as what the real
wind is.
Without TAS they can't calculate wind accurately, although some use
Thermalling drift to update the wind vectors, which works well if you
thermal a lot.
Long cross-countries in mountain wave may involve very little circling, and
that's when you need a better method.
AP