NavList:
A Community Devoted to the Preservation and Practice of Celestial Navigation and Other Methods of Traditional Wayfinding
Re: Vernier sextant
From: Alexandre Eremenko
Date: 2007 Mar 6, 13:51 -0500
From: Alexandre Eremenko
Date: 2007 Mar 6, 13:51 -0500
On Tue, 6 Mar 2007, Bill wrote: > What is the purpose of the averager, > and how (mechanically) does it achieve > that function? The purpose of the averager is the same as the purpose of averaging sights with the usual sextant: to decrease the influence of small random errors. When instead of one sight you reduce the average of n sights, the theory says that the small random errors will be reduced by a factor of sqrt(n). So the average of 9 sights is likely to be more precise than one sight by a factor of 3. Now taking, recording and averaging 9 sights by hand is time consuming, even with a calculator. That's why the air sextants have a mechanical averaging device, which can average about 60 sights taken in 2 minutes. The small random error (of the sort the averaging kills) are expecially important with this sextant because a) airplane shakes and b) your hand shakes, c) the bubble shakes d) you cannot match the Sun and the bubble as well as you match two sun's images in the ordinary sextant. All this shaking produces small errors which are equally likely to be positive and negative, so they are supposed to cancel in the average. The mechanical averaging device is a funny clockwork mechanism. You have to wind it with the key, then align the Sun and the bubble. Then you trigger the averaging mechanism and try to keep the Sun and the Bubble alinged as well as you can for two minutes. A lever connected with the index glass protrudes from the sextant to the averager, and it is the position of this lever that the averager records every two seconds through a sophisticated cogwheel mechanism. The mechanism adds all these positions and divides by 60; all this is performed by a system of cogwheels. The principle of adding mechanism is simple, it is roughly the same as the bicycle device that records the distance traveled by counting the rotations of the wheel. Dividing is also easy with the cogwheels. In the end you see the result on a digital indicator which consists of two wheels: for 10ths of minutes and single minutes. Then you record the time by the usual watch, and subtract 1 minute (so that the time is the average time, corresponding to the middle of your observation). Now, I am not observing from a moving and shaking airplane, and I can align the bubble with the sun once pretty well. That is why, when observing from a balcony, sitting in a comfortable position, i usually do better without the averaging. Why exactly better? because in 2 minutes of keeping the Sun and the bubble aligned, my hand gets tired and starts to shake more:-) Anyway, my experience shows that the averager is useless for backyard navigation. However, on a small boat, which sometimes swings like crazy on the waves, I do not exclude that the averager may be of some use. One just has to experiment. The bubble sextant, with averager or without, certainly has some advantages on the small craft. Because the horizon is frequently obscured by waves. I know that C. Plath was making art horizon sextants (with averager!) for the use on submarines (the line of sight is very low), and that the Soviets cloned it after the war. They had an art horizon marine sextant. I almost bought one once, but then decided not to when I learned that its weight is 12 kg (!!). (Well, including the box, but anyway:-) Alex. --~--~---------~--~----~------------~-------~--~----~ To post to this group, send email to NavList@fer3.com To , send email to NavList-@fer3.com -~----------~----~----~----~------~----~------~--~---