How to use a
compass
Magnetic
Declination
Unfortunately,
sometimes, for some quite often, it is even more complicated.
There is something called magnetic declination. You see,
the compass is pointing towards the magnetic north pole,
and the map is pointing toward s the geographic north pole,
and that is not the same place.  To
make things even more complicated, there is on most hiking-maps
something (that is very useful) called the UTM-grid. This
grid doesn't have a real north pole, but in most cases,
the lines are not too far away from the other north(s).
Since this grid covers the map, it is convenient to use
as meridians.
On most orienteering maps (newer
than the early 70's), this is corrected, so you won't have to worry
about it. But on topographic maps, this is a problem.
First, you'll have to know how large the declination is, in degrees.
This depends on where on the earth you are. So you will have to find
out before you leave home. Or somewhere on the map, it says
something about it. One thing you have to remember in some areas,
the declination changes significantly, so you'll need to know what
it is this year.
If you are using a map with a "UTM-grid",
you want to know how this grid differs from the magnetic pole.
When you are taking out a course,
you will do that more or less as described in
lesson
2,
but this time, you must also look out so that you don't
align the orienting lines with the grid lines pointing west
or east, or south for that matter. When you have
taken out a course like you've learned, you must add or
subtract an angle, and that angle is the angle you found
before you left home, the angle between the grid lines or
meridians and the magnetic north.
 The
declination is given as e.g. "15 degrees east".
When you look at the figure, you can pretend that plus is
to the right, or east, and minus is to the left and west.
Like a curved row of numbers. So when something is more
than zero you'll subtract to get it back to zero. And if
it is less, you'll add. So in this case you'll subtract
15 degrees to the azimuth, by turning the compass housing,
according to the numbers on the housing. Now, finally, the
direction of travel-arrow points in the direction you want
to go. Again, be careful to aim at some distant object and
off you go.
You may not need to find the
declination before you leave home, actually. There is a fast and
pretty good method to find the declination wherever you are. This
method has also the advantage that corrects for local conditions
that may be present (I am thankful towards Jim Cross who pointed
this out to me). This is what you do:
- Determine by map inspection the
grid azimuth from your location to a know, visible, distant
point. The further away, the more accurate it gets. This means
you have to know where you are, and be pretty sure about one
other feature in the terrain.
- Sight on that distant point with
the compass and note the magnetic azimuth. You do that by
turning the compass housing so that it is aligned with the
needle. You may now read the number from the housing where it
meets the base of the direction of travel-arrow.
- Compare the two azimuths. The
difference is the declination.
- Update as necessary. You
shouldn't need to do this very often, unless you travel in a
terrain with lots of mineral deposits.
There are a few riddles and rhymes
to help you remember whether you should add or subtract. I don't
know them. If you live in an area where you don't go far for it to
change between east and west, it is so small you wouldn't need to
worry about it anyway. So it's best to just remember whether you
should add or subtract.
Uncertainty
You can't always
expect to hit exactly what you are looking for. In fact, you must
expect to get a little off course.
How much you get off course depends
very often on the things around you. How dense the forest is, fog,
visibility is a keyword. And of course, it depends on how accurate
you are. You do make things better by being careful when you take
out a course, and it is important to aim as far ahead as you can
see.
In normal forest conditions we say that as a rule of thumb,
the uncertainty is one tenth of the distance traveled. So
if it is like in the figure, you go 200 meters on course,
it is possible that you end up a little off course, 20 meters
or so. If you're looking for something smaller than 20 meters
across, there is a chance you'll miss. If you want to hit
that rock in our example you'll need to keep the eyes open!
In the open mountain areas, things
are of course a lot easier when you can see far ahead of you.
This was the last of the lessons you
should know. But more lessons are upcoming. Now it is time to log
out and get into the backyard, and then backcountry. Try it out!
That is after all, the only way to learn this properly. Good Luck!
I said
navigating in the mountains is easier. Well that is until the fog
comes. Fog can make orienteering in the mountains and in the forest
extremely difficult, and therefore, it can also be dangerous to the inexperienced. The principles of orienteering are still the same,
but there are a few hints in the
next
lesson that will help you get trained.
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