How to Choose a Compass
Even in this era of high-tech, satellite-assisted navigation, a compass remains one of the
10 Essentials of wilderness travel. True, you may hike for days on a trail and never even
look at it, yet if you take a wrong turn or a whiteout blows in, a compass (in tandem with a
map) suddenly becomes one of the most important tools in your pack.
The ability to navigate with map and compass is a crucial wilderness skill, especially if you
travel off-trail. Take the time to learn it; some day it may save your life.
Types of Compasses
The type found on keyrings or watches, or small round compasses with
no base plate. They accurately point toward magnetic north, but are designed more for fun and
quick reference than serious navigation.
Inexpensive, yet quite sufficient for wilderness travel; well-suited for
beginners. They have all the essential components but lack some bonus features, such as a
declination adjustment or a mirror. Example: Suunto A10 Partner II.
Full-featured models with many extras (a mirror, magnifier, et al.).
Well worth the added cost if you are a regular wilderness explorer, particularly one who
regularly travels off-trail. Example: Silva Ranger Type 15 CL.
Basic Compass Features
Backpackers customarily use what is known as a "base plate" or "orienting" compass.
("Orienting" refers to the act of determining your exact position; "navigation" is the
process of determining your destination and guiding yourself toward that objective.)
The standard features of a compass include:
Usually the red end of a pivoting compass needle. This end points to the
strongest magnetic field, which is usually the magnetic North Pole. "Magnetic north" is
different from "true north"-the geographic North Pole, where all longitude lines meet. Magnetic
north, one of earth's two magnetic poles, lies in an island chain within the Canadian Arctic.
True north and magnetic north are separated by more than 1,000 miles.
Note: When working with a map, you must compensate for the difference between true and magnetic
north. This can be accomplished in various ways. See "Declination Adjustment" for some tips or
our navigation clinic.
The housing (or dial) that contains the needle, the needle's
bearing (or pivot) and damping fluid. The fluid protects the needle from jarring and minimizes
needle movement during readings.
Rotating Azimuth Ring (or Bezel)-
A ring marked with degrees from 0 to 360 (preferably
in 2° increments) that encircles the outer edge of the compass capsule. The "azimuth"
is your direction of travel (expressed in degrees) between two points. Azimuth and "bearing"
have come to mean the same thing.
A rectangular, plastic, preferably transparent base where the capsule sits.
Better compasses have rulers (in inches and centimeters) etched into the "straight edges"
of the plate. These are helpful when measuring distances on a map. Try to select a compass
that offers scales you are likely to use. Common scales are 1:24,000 and 1:25,000.
Orienting Arrow and Parallel Meridian Lines (or, North-South Lines)-
Located on the
bottom of the compass housing. The non-magnetic arrow's directional end is usually red and,
coupled with the meridian lines (which you align with the north-south lines on a topographic
map), helps orient your line of travel on a map.
Index Line or Direction-of-Travel Line-
Located at one end of the base plate.
Specialized Compass Features
A more sophisticated orienting arrow, one that can be aligned to
reflect the "magnetic declination" in your area of travel. (This is the difference between
true north and magnetic north.)
In many cases a tiny adjustment tool, usually connected to the lanyard, is used to turn a
small screw on (or near) the compass housing. When adjusted, the orienting arrow is no
longer parallel with the north-south lines; instead, it will be offset for the difference
you dial in. This should correspond to the area you are planning to traverse. Then, when
the north-south lines are aligned on a map, the adjusted arrow will accurately point toward
magnetic north, indicating the angle of declination. New adjustments can be made for each
A fixed orienting arrow, meanwhile, requires you to "do the math" and make manual
adjustments for each new measurement. (Some people use a piece of tape to mark the angle
of declination on an inexpensive compass.) An adjustable arrow, though, allows you to "set
it and forget it," a very nice convenience.
A note on magnetic declination: In parts of the central United States, magnetic declination
has nearly zero impact on compass readings. In parts of Washington state, meanwhile, magnetic
north can make a compass needle lean east of true north by as many as 20°. In northern
Maine, the needle may swing west of true north by 20°. In northern Alaska, the angle of
declination can exceed 30°. Maps sometimes include an angle-of-declination "pie" in their
legend. The newer the map, the more reliable the angle shown in the pie. This is because
the rotation of the earth causes magnetic north to shift roughly 1/10 of 1 degree each
A small lens mounted into the base plate; handy for reading tiny map
A fold-out surface that can improve accuracy when gauging readings on
distant landmarks. It also doubles as a signaling/personal mirror.
These are good to have on your magnetized needle, on both sides
of your orienteering arrow, even on the azimuth ring's four cardinal points.
Allows you to measure the angle of a slope; helpful for assessing avalanche
hazard and the heights of objects.
A piece of string that allows you to attach a compass to a belt or pack.
Which One Is Right for You?
These models are great for beginning adventurers, unless the beginner is an especially ambitious person who intends to progress rapidly to an advanced level. People who almost always stick to trails (experienced dayhikers, recreational backpackers) can easily get by with an inexpensive model. The extras found on specialized models (mirrors, magnifiers, declination arrows) are nice but not essential for casual explorers.
Anyone who makes frequent compass checks knows the value of an adjustable declination arrow. For those who have owned a compass with this feature, there is no going back; a declination adjustment is a must. If your travels regularly take you off-trail, seriously consider spending the extra money for a model that includes this feature. Some less expensive models, such as the Suunto M-2D, offer it. A sighting mirror is a nice bonus, too.
Can a GPS Receiver Replace a Compass?
A compass and a satellite-based Global Positioning System receiver are complementary
tools. A compass does one thing a GPS unit cannot-point toward magnetic north. GPS units
equipped with an electronic compass are gradually coming to market. Still, GPS receivers are battery-powered devices that potentially could run out of power. A compass, relying solely on the earth's magnetic forces, has no such limitations. Thus, even if you own a GPS unit, you will always want to carry a compass as well.
GPS receivers are splendid devices. They are designed to measure direction of movement by
calculating the difference between your current position and last position. They can also tell
you your position without relying on visible landmarks for bearings, which is necessary for a
compass must. On days of snow or heavy fog, that's a big plus.
Another GPS advantage: When following a bearing via compass, obstructions sometime cause you to
stray from your ideal line of travel. This requires you to keep careful track of any deviations you take from your bearing, to the point of counting the paces you take while sidestepping the obstacle. Once past the obstacle you might need to adjust your compass bearing, but key landmarks may no longer be in view. With a GPS unit, however, you can easily obtain a new bearing and reset your compass with a revised line of travel.
Bottom Line: When you want to know which direction you are facing-an important piece of knowledge
-you must have a compass.
Compass Tips and Terminology
can distort a compass reading, so be sure to take bearings away from your car,
camera or other metallic objects. Metallic interference can easily alter a compass reading by
20 to 60 degrees. So, if you are plotting bearings at a picnic table, check to see if your
compass is being exposed to metal bolts or brackets that may affect its accuracy. Electrical
fields (a running car engine, for example) can also throw off the accuracy of a compass.
Be careful where you store a compass
. For example, do not store a compass on top of a
stereo speaker, which is equipped with a powerful magnet, or a place exposed to strong electric
current. Over time, such exposure could demagnetize the needle. A compass responds to the
dominant polar source in its vicinity; you want it to be the earth.
Compasses not only need to be held level to "swing" properly, they need to be appropriate
for the latitude. In general, the earth has 5 different magnetic "dip"
zones. These areas can
cause a compass needle to point up or down, affecting the accuracy of a bearing. Fortunately,
all of the contiguous United States fall within the same magnetic dip zone.
Note: Most compasses correct for dip by slightly unbalancing the needle. This works fine
as long as you stay near the same latitude. If you visit a place with a much different
latitude (the Southern Hemisphere, perhaps), your compass may not work properly. Some
compasses (e.g., the Suunto Global Compass) are specially designed to work anywhere on the
The 4 principal directions shown on a compass-north, south, east, west-are known as
. The face of a compass is sometimes referred to as a compass rose
(once known as an azimuth) refers to the direction of travel-expressed in degrees-you follow to arrive at a destination. Traditionally, bearings have been measured from the north or south points of a compass. A bearing of N60°E (angling to the east-northeast) has an azimuth of 60°. A bearing of N90°W (due west) has an azimuth of 270°. Such a nuance is irrelevant to most compass-users, though there is a distinction that advanced navigators will wish to consider.
Note: To avoid confusion when communicating with others, it is helpful to express all
bearings with the north references. For example: 30 degrees true; 10 degrees magnetic.
Navigating With a Compass
Compasses enable the user to perform four basic functions:
- Take bearings in the field.
- Follow bearings in the field.
- Measure bearings on a map.
- Plot bearings on a map.
These procedures are explained in detail in the navigation clinic. We encourage you to grab a
compass and a map and check it out.
Ultimately, there is no substitute for practice when your goal is to improve your navigational
skills. Here are some additional steps you can take:
- Study an instructional book on navigation and practice its principles on day hikes,
short-haul trips, even during city strolls.
- Take a trip with a navigation-savvy friend and learn all you can.
- Attend a navigation seminar or wilderness route-finding course (offered periodically at REI
stores) or enroll in a class (often available at local colleges or through local branches of
- See if any orienteering clubs exist in your area. Orienteering, popular in Scandinavian
countries, adds a sporting element to map-and-compass navigation. Part endurance race, part
treasure hunt, part mental puzzle, orienteering events are hosted regularly by regional clubs
throughout the United States and Canada. Contact the U.S. Orienteering Federation for information.
A compass remains an essential tool for safe wilderness travel. Strengthening your
grasp of map and compass skills through practice and field work will make you a more self-assured