You are here

Basic Compass Orienteering

Filed Under:
Publication Number: P3322
View as PDF: P3322.pdf

A compass is a tool that can keep you on track so you can walk in the wilderness and get to your desired location. Unlike a Global Positioning System (GPS), a compass does not run on batteries and will always work, letting you know which direction you are going. This publication provides instructions on how to use a compass so you can roam in the great outdoors without getting lost.

What Is a Compass?

A simple compass is merely a needle (pointer) that is magnetized. Since it is magnetized, it aligns itself with Earth’s own magnetic field. You can demonstrate this with a magnet, sewing needle, small piece of cork (large enough to hold the needle), and bowl of water. You can magnetize the needle by rubbing the magnet across it, from end to end, several times (always in the same direction). Eight or ten times should be enough (Figure 1). Stick the needle through the cork, and put the cork in a bowl with enough water to allow it to float. Put the bowl on a table or countertop and don’t disturb it (Figure 2). When the water and cork become still, the needle will move to align itself with the earth’s magnetic field. You can test this if you carefully spin the needle slightly. You will see that the needle will eventually return to the direction it had been pointing.

A person rubs a sewing needle against a magnet.
Figure 1. Magnetizing the needle.

Three types of compasses are discussed in this publication: commerical, lensatic, and map. A commercial compass has a magnetized needle suspended above the face of the compass (Figure 3). The needle points toward the magnetic poles in the earth, just like the needle in the example below.

The bottom half of a clear drink bottle holds water and a small piece of fishing cork with a sewing needle pushed through it.
Figure 2. Do-it-yourself magnetization demonstration.

 

An open compass on a camouflage background.
Figure 3. Face of the compass.

A commercial compass may have other components, too. Not only will one end of the needle be identified as north (N) and the other south (S), but typically east (E) and west (W)are identified, as well. A lensatic compass allows the user to get a fixed position on a distant object (Figure 4) and then determine the degrees in which that object is located by using the dial on the face of the compass (Figure 5). This is known as taking an azimuth. Once you have reached one landmark, then you can take another azimuth to the next landmark, repeating the process until you reach your objective.

A map compass is more user-friendly with maps. It is mounted on a clear rectangle, and the remaining portion of the rectangle has a small ruler to help you read distances on the map and a magnifying glass to enlarge small landmarks printed on the map (Figure 6).

A person holds a compass up and peers through it at an object in the distance.
Figure 4. Using a lensatic compass.

 

Hands holding open compass, described in the text.
Figure 5. Determining location with the dial on the face of the compass.

 

Clear rectangular ruler with an attached compass face and magnifying glass on a camouflage background.
Figure 6. A map compass.

Basic Parts of a Compass

The needle on most compasses is red on one end. The red portion of the needle always points toward magnetic north. It is important to note that any large pieces of metal in the area can affect the compass needle. This means that if you have a pocket knife in your hand or you are standing right next to a large metal object (such as an automobile), the reading could be off. Looking at the face of the compass, there is another arrow on the base of the dial called the orienteering arrow. This arrow should be aligned with the half of the needle that is pointing north. Remember the rhyme “put red in the shed.” The needle is red, and the orientation arrow is the shed. When the two arrows are aligned correctly, then the compass directions (north, south, east, and west) on the compass will be correct.

The next part of the compass is the bezel. The bezel is divided into degrees, with north being at 0 degrees, east at 90 degrees, south at 180 degrees, and west at 270 degrees. They continue to increase until reaching 360 degrees (due north), when they return to 0. There are smaller divisions between each degree called minutes, and there are 60 minutes in each degree. Only the highest precision compasses will be divided into minutes.

True North versus Magnetic North

True north is exactly what it sounds like: the direction to the North Pole. Magnetic north is the direction to the magnetic north pole. Unfortunately, the true north pole and magnetic north pole are not at the same place, so there is some error when using a magnetic compass to find true north. Many maps will have a correction and explain how to apply it and how that correction changes year to year. Fortunately, in most areas of the United States, the error is small, and the correction is needed only for the most exacting work.

Walking a Course

Navigation in its most basic form is simply seeing a landmark in the distance and walking to it, and then finding another landmark and walking to it. To go back to the original location, you simply follow the landmarks in reverse. Navigators of the past would mark trees with a hatchet to mark a course of travel. While this method still works, most public lands do not allow defacing of trees in this manner. You can mark your course of travel using a compass and a travel log.

For example, if you are walking from landmark A to landmark B, good orientation would mean that you know the compass bearing that takes you from one to another, as well as the distance that you traveled. In a modern GPS, this is known as a track, but since you are not using a handheld GPS device, you need to create your own travel log. A small notebook and pen can be used to record landmark distances and other comments (Table 1).

You start by keeping up what is known as a pace count. One pace is two steps; that is, if you start with your right foot, when you put your left foot down, that is one pace. Count each time you put your left foot down, and you will have your pace count. For the typical adult, one pace is about 30 inches, but the exact distance will vary for each person. By counting the number of paces it takes you to walk 100 meters and by keeping up with your pace count, you can easily estimate the distance. Of course, your actual pace may vary a bit if you have to step over a rock or other object, but you can correct for that with your counting.

When you are moving over a considerable distance, pacing beads are a very good item to have with you. Pacing beads are just a series of beads on a string (Figure 7). Starting out, the beads should be on one end of the string. After you have walked 100 meters, move a bead to the other side of the string.

A string with nine beads pushed to one end and one bead pushed to the other end.
Figure 7. Pacing beads.
Table 1. Example of a travel route log entry.

Azimuth

Distance

Notes

100 degrees

0 meters

camp

250 degrees

200 meters

2 beads (large log)

150 degrees

100 meters

1 bead (started following creek)

175 degrees

300 meters

3 beads (shoreline of lake)

Table 1. Example of a travel route log entry.

There will be times when you want to explore around the area of a given azimuth. To do this safely, tie a large, hunter-orange handkerchief in a highly visible area so you will be able to see it over a distance (Figure 8). Never explore beyond sight of the marker when using this method because you can easily become disoriented.

A person walks away into the woods. An orange flag is tied to a tree branch in the foreground.
Figure 8. Safely exploring outdoor areas with handkerchief markers.

When You Encounter Obstacles

There will be times when obstacles such as a lake or some other terrain feature make it impossible to walk in a straight course. Be sure to mark your starting location (toilet paper is a good visual aid at a distance) and choose a sight reference across the obstacle (such as a tree or rock on the opposite shore). Take an azimuth of this landmark and record it in your log. When you arrive at the landmark, it is equally important to take what is known as a back bearing by taking an azimuth of the toilet paper marker on the other side. This keeps you from drifting from your return course and plots an imaginary line through the obstruction you encountered.

Returning to Camp

When it’s time to return to your starting point, the safest bet in unknown territory is to use the course you plotted. But, if you are familiar with any potential obstacles in your way, you can walk directly back to the original azimuth. This is called a direct route return and is sometimes known as a “panic azimuth,” as it is merely the 180 degree reverse of the starting point azimuth.

Conclusion

Learning to use a compass may seem like a daunting task, but think of it as developing a skill that could save your life and the lives of others. Knowing where you are and how to get back will allow you to fully enjoy the outdoors without the fear of getting lost. Go grab a compass and let the magnetic forces of the earth be your guide!


Publication 3322 (POD-03-24)

Reviewed by Reid Nevins, Extension Specialist I, 4-H Youth Development, from an earlier edition by John Long, PhD, Assistant Extension Professor (retired), 4-H Youth Development.

Department: Ctr 4-H Youth Development
Print Friendly, PDF & Email

The Mississippi State University Extension Service is working to ensure all web content is accessible to all users. If you need assistance accessing any of our content, please email the webteam or call 662-325-2262.

Select Your County Office

Authors

Portrait of Mr. Reid A. Nevins
Extension Specialist I
4-H Environmental Sciences

Your Extension Experts

Portrait of Mr. Reid A. Nevins
Extension Specialist I

Related Publications

Publication Number: M1917
Publication Number: P4038
Publication Number: P4039
Publication Number: F1181
Publication Number: P1447

Pages