SailNet Community

SailNet Community (
-   Gear & Maintenance (
-   -   N hemispere binoc w compass not working in S? (

bullseye 08-04-2002 10:17 PM

N hemispere binoc w compass not working in S?
i was in a binocular shop today & the salesperson warned me not to buy a pair of binoculars from the northern hemisphere(im in the southern hemisphere)ie, over the internet from the US or europe. he said the compasses required in the north or south hemisphere are different,he said a northern hemisphere binoculor with compass,that the compass would not work at all!

he said this after i told him i could buy over the internet at much cheaper prices than his.
i found the compass thing not working a little hard to believe.

was he right?, or was he just trying to make a sale?
any advice please

DuaneIsing 08-05-2002 05:05 AM

N hemispere binoc w compass not working in S?

I will admit to my ignorance here. At first, I was going to reply that there should be no difference. Before posting, I decided to do a google search (amazing what you can find) and discovered that YES there is a difference.

In general, it comes down to using counterweights on the needles in compasses to account for the force which pulls one end of the needle down (toward the earth''s center). The vertical forces are opposite in the hemispheres and so different balancing is used.

I did find, however, at least one manufacturer that makes a compass which is claimed to work fine in either hemisphere. Also note that most of the references did not speak to binoculars specifically, but apparently they are affected, too.

Thanks for postng that question; I learned something.


fer@fer 08-09-2002 07:46 PM

N hemispere binoc w compass not working in S?
Hi Bulleye,

Some principles of magnetism should be discussed to better understand what the vendor tried to explain.

The force of attraction magnetic field is greatest at the poles of the earth and least in the area between the two poles. The perfect place to be: Equator. The magnetic field is formed by lines of force flow from each of these poles, bending around and flow toward the opposite pole. Points of equal variation connected by an isogonic line, are plotted on Isogonic charts . In our navigation charts, we get only magnetic declination for the area. As we now, primarily correction for this, is the magnetic variation. In some places this variation is easterly; other places it is westerly.

The lines of force in the earth''s magnetic field pass through the center of the earth, exit at both magnetic poles, and bend around to re-enter at the opposite pole. Near the Equator, these lines become almost parallel to the surface of the earth. However, as they near the poles, they tilt toward the earth. In the immediate area of the magnetic poles they dip rather sharply into the earth. Since the poles of a compass tend to align themselves with the magnet lines of force, the magnet within the compass tends to tilt or dip toward the earth in the same manner as the lines of force.

Because the compass is suspended to swing freely, it tends to align with the earth''s magnetic lines of force. If you happen to be at North pole with a Southern calibrated compass, you''ll see that the card of the compass rose will almost point downwards. (And of course will get stuck, and will not longer free rotate as you change rumb.

This is known as the dip error: the compass card tends to align itself with the earth''s magnetic field. At or near the Equator this causes little or no problem, but as the ship nears either of the magnetic poles, the dip error (vertical dip in the needle) may become significant. In some areas, it may happen that the needle just dug itself into the bottom and wouldn''t read anything.

That is the main error for a compass in a ship. (In airplanes there are other errors in turning and acceleration, which I will skip discussing at this Honorable Sailing Forum)

How are these dip corrections managed by compass manufacturers: in compass for the Northern Hemisphere, a small counterweight is placed on the south seeking end of the compass needle, allowing the needle being parallel to the earth surface. In the Southern hemisphere the opposite applies and the counterweight is positioned on the north seeking end of the needle. That is the reason they only work in one hemisphere.

But, good compasses allow for this by allowing for a fairly large vertical play in the needle. But, the simple, flat compasses don''t work well in this situation because the tip of the needle hits the surface of the compass.

I recall one of the racing Cats racing The Race, changed compasses after entering Southern Hemisphere, since the needle plate got stucked.

Sorry so long, Regards


All times are GMT -4. The time now is 10:12 PM.

Powered by vBulletin® Version 3.8.7
Copyright ©2000 - 2017, vBulletin Solutions, Inc.
vBulletin Security provided by vBSecurity v2.2.2 (Pro) - vBulletin Mods & Addons Copyright © 2017 DragonByte Technologies Ltd.
User Alert System provided by Advanced User Tagging v3.1.0 (Pro) - vBulletin Mods & Addons Copyright © 2017 DragonByte Technologies Ltd.
(c) LLC 2000-2012

For the best viewing experience please update your browser to Google Chrome