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BRUNTON

COMPASS

GUIDE

A Practical

Pocket

Field Guide

for Map &

Compass

Use

Congratulations on purchasing a Brunton map compass, an easy to use,
reliable navigation tool.  Brunton recommends you read and understand the
basic navigational skills outlined in this instruction pamphlet before going afield.
Remember, prepare before you go.  Tell others where you are going.  Carry a
map and compass, a complete survival kit and know how to use them.

CAUTION:

  Your compass will only locate Magnetic North and bearings

(directions) from your present location.  You have to remember the direction
you have been traveling, the direction back to your starting point and keep
track of your present position on the map.  

IF YOU BECOME LOST, Admit it,

and try to remember where the map and the terrain matched.  Backtrack
to that position with your compass.  IF YOU STILL ARE LOST,

 

Stay Put

and do not wander or panic.  

Shelter 

yourself from the elements.  

Wait

 for help

and be prepared to signal your position to rescuers.

Travel Arrow

Flèche directionnelle

Vial

Fiole

Azimuth Ring

Cadran Azimutal

Map Scales

Échelles de la carte

Magnetized Needle

Aiguille aimantée

Magnetized Needle:

  Red/White painted cobalt steel needle. Permanently magnetized and suspended on a

bearing mount.

Azimuth Ring:

  White Rotating dial marked ( 2 degree increments) from 0-360° degrees. North “N” = 0°, South

“S” = 180°, East “E” = 90° and West “W” = 270° clearly indicated.

Orienting Arrow:

  Red/Black outlined arrow imprinted on clear vial bottom.  Outlined orienting arrow is

adjustable eastward or westward for declination correction by rotating the clear vial independently from the white
azimuth ring.

Declination scale:

 Printed inside azimuth ring, 0-60 degrees marked every two degrees, East and West

declination.

Vial:

 Clear liquid filled plastic vial  that surrounds magnetized needle.  The liquid inside is used to slow and

stabilize the movement of the magnetized needle.

Map Scales:  

Black imprinted scales on base plate used to determine distance on maps. Refer to maps margins

for scale information. (i.e. USGS 7.5 min., 1:24,000 scale)

Travel Arrow:

 Black arrow on base plate used to point or sight the compass towards your destination or

direction.

Sighting Systems: 

Directional, and Mirrored.

Figure 2A

Figure 2B

Directional Sighting: Object or direction is
sighted using the “Travel Arrow.”

Visée directionnelle : L’objet ou la direction est

relevé à l’aide du pointeur.

Models 9020, 8010 & 8020  (Figure 2A)

Mirrored Sighting: Object or direction is sighted
through “gun” sights while needle alignment and
azimuth ring are read in reflection of mirror.

Visée à miroir : L’objet ou la direction est relevé au-dessus
du miroir par le biais de la mire (rainure en “V”) au moment
où l’alignement de l’aiguille et du cadran azimutal est
prélevés en réflexion du miroir.

Model 8040.  (Figure 2B)

6. Adjusting Compass for Declination

Identify the declination variance from your map.  Grasp inside vial (orienting arrow) separately from white
azimuth ring.  Rotate vial until the orienting arrow is pointing to the desired degree of declination on the
declination scale, East or West. (Figure 6)  After you have adjusted your compass for declination, the
magnetized needle still points towards magnetic north.  The white azimuth ring and bearings sighted with the
compass now represent True North bearings.

Declination East

Déclinaison Est

Declination West

Déclinaison Ouest

Figure 6

Figure 7C

Figure 8C

Figure 8A

Figure 9A

Figure 15B

Figure 3A

Figure 10A

Figure 9B

Figure 11

Figure 13

Figure 12A

Vertical Height Formula

Figure 12B

Figure 3D

Figure 7B

Figure 8B

By aligning your map to north,  the terrain around you
can easily be identified. Features from your map are
located in the field;  North - Ahead, East - Right, West -
Left and South - Behind.   Place a couple of rocks on
the map corners to keep the map from moving and
oriented to north. Aligning the map to north also allows
use of the magnetized needle to sight bearings FROM
and TO your map. (Figure 8C)

9. Establish a Map Bearing with “North” oriented map.
a.)

 Orient map to North.

b.)

 Line up edge of compass connecting present location with

destination.  Make sure Travel Arrow is pointing towards destination.
(Figure 9A)

c.)

 Hold compass base and rotate Azimuth Ring until magnetized

needle is centered within outlined orienting arrow. (Figure 9B)

d.)

 Read bearing where Travel Arrow and Azimuth Ring intersect.

10. Field Bearing to Map with “North” oriented map.
a.)

 Orient map to North.

b.)

 Identify a landmark on map which can be sighted from

your position.

c.)

 Establish field bearing by sighting compass to

landmark identified from map. (Figure 10A)

d.)

 Place edge of compass on maps’ landmark. The

Travel Arrow should point towards landmark on map.
(Figure 10B)
While keeping compass edge on landmark, pivot

 compass until

magnetized needle is centered within orienting arrow.  Plot bearing on
map by drawing line from landmark using the edge of the compass.
(Figure 10C)

1. How A Compass Works

Your compass is a navigational instrument that provides directions or bearings, using the Magnetic North Pole
as a reference.  Following your BEARING and measuring the distance traveled (counting stride, time or plotting
locations on a map) is all that is required for successful navigation.

2. Getting to know your Compass

  (Figure 1)

Declination Scale

Échelle de déclinaison

Orienting Arrow

Pointeur

17. Caring for your Compass.
A - Warning:  

Avoid metal or magnetized objects, such as, pocket knives, gun barrels, belt buckles, electric

motors and vehicles.  The magnetized needle will be attracted to such objects giving incorrect Magnetic
North compass bearings.

B - How do I care for my compass? 

 If your compass becomes dirty, carefully wipe it off using a soft, damp

cloth. If necessary, a mild liquid soap may be used to aid in cleaning.
• Avoid abrasive cleaners which can permanently scratch your compass, or petroleum based solvents which
can actually “melt” most plastics.
• Avoid exposing your compass to extreme heat (120 degrees plus)
• Avoid exposing your compass to high strength magnetic fields, electromagnets (electric motors) as they
can disorient or permanently de-magnetize the needle.
• Avoid mosquito repellent on your hands.  DEET

®

 will remove the information on the bottom of the base

plate potentially causing it to cloud up and possibly crack.

18. Southern Hemisphere Use

If you are traveling to the southern hemisphere your compass should be balanced for the earth’s southern
magnetic inclination.  Contact the Brunton Co. for compass balancing information.

Travel Arrow

Flèche directionnelle

Read Bearing Here

Lisez le relèvement à
ce moment

Figure 3B

Read Bearing Here

Lisez le relèvement à
ce moment

3. Sighting & Following a Compass Bearing

Hold your compass level in front of you, with the Base
Plate Travel Arrow pointing towards the direction you
wish to go.  Do not point the compass with your hand.
Turn your whole body.  When your compass is held flat,
the Magnetized Needle will rotate freely and its RED
end will point towards Magnetic North. (Figure 3A)

Holding the compass level, 

rotate 

the

Graduated Dial until the Orienting Arrow and
Red “N” are aligned with the RED end of the
Magnetic Needle.  (Figure 3B)

Your 

Bearing

 or Direction of Travel can now

be read in Degrees at the Index Line on the dial at the base of the Travel
Arrow, which now points precisely to your destination.  (Figure 3C)

Look up,

 sight a landmark

 (rock, tree, etc.) along the bearing path, using

the Travel Arrow as a guide.  Take care not to mis-align the Magnetic
Needle.  Keep it centered inside the Orienting Arrow.  Now 

walk towards

the landmark.

  Repeat this procedure until you reach your destination.

(Figure 3D)

When you 

repeat

 this process, identify landmarks along your bearing path

(the further away the better) and walk to them.  You can navigate around
difficult terrain such as streams and cliffs, while still maintaining your
original bearing.

If you are using a Brunton compass that has a Sighting Mirror, adjust the
mirror so that it reflects the entire compass dial as you look across the
Base Plate.  Object or direction is sighted through “gun” sights while
needle alignment and azimuth ring are read in reflection of mirror.  Turn the
Graduated Dial until the Orienting Arrow is aligned with the Magnetic
Needle.  Your Bearing will be read at the Index line (“gun” sight) next to the
mirror hinge.  Follow your Bearing as indicated above.

4. Using a Topographical Map

Topographical maps present a 3 dimensional picture of the land  viewed
from above.  Features are designated by color and symbol:  Cultural
features or 

man-made (Black), water (Blue), vegetation (Green), and

elevation (Brown).  Elevation is indicated by contour lines, on which every
point along the ground is at the same height above sea level.  The closer
the contour lines, the steeper the slope.  Every fifth line is darker and has a
number representing the height above sea level.  Contour lines also show
the shape and form of the land.  Maps are made to a scale, which
represents a proportion to the distance between points on the map and the
actual distance between the same points on
the ground.  Large scale maps, such as a
1:24,000 U.S.G.S., on which features appear
big, show the most information for hiking and
camping.  The legend at the base of the map
indicates the scale, contour interval and
special symbols shown. (Figure 4)

5. Understanding Declination

Declination (or variation) is the difference
between True North (to which maps are drawn) and
Magnetic North (as indicated by a compass).  You

Must

 adjust for declination, East or West, when using

a compass with a map.  Declination varies throughout
the world and is shown on topographical maps with a
diagram, identifying Magnetic North (MN) and the
degree variance from True North (TN).  Magnetic fields
fluctuate slowly at varying rates around the world.  It is best to use an up to
date map for current declination.  Visit our web sight or call Brunton for an
accurate declination variance in a specific location.  (Figure 5)

True North

Nord géographique

13°
230 mils

Magnetic North

Nord magnétique

Topographical Map Manufacturer
U.S.G.S. Maps: (800) 872-6277
Trails Illustrated: (800) 962-1643
DeLorme Mapping (207) 865 4171

Figure 1

Figure 3C

Figure 5

Figure 7A

7. Quick Map Bearing:  Brunton “ABC” System
A - Align Compass.  

Set declination and line up edge of compass connecting

present location with destination. Make sure Travel Arrow is pointing towards
destination. (Figure 7A)

B - Bearing is found

 by rotating the white azimuth ring until

North “N” and “red” grid lines on top of the azimuth ring

align with North and red grid lines on map.  Bearing is

read where Travel Arrow intersects azimuth ring.

(Figure 7B)

C - Course 

is determined by rotating body (not

compass) centering magnetized needle to

outlined orienting arrow and sighting a land
mark. (Figure 7C)

8. Map Bearings with “North” oriented map.
 -

 Orienting Map to North

a.)

 Adjust compass for declination.

b.)

 Rotate Azimuth Ring so that North (0°) degrees intersects

with Travel Arrow.

c.)

 Place edge of compass on maps margin with Travel Arrow

pointing towards North end of the map. (Figure 8A)

d.)

 Without moving compass, rotate map until Magnetic Needle

is centered within outlined Orienting Arrow.

 

(Figure 8B)

Figure 10C

Figure 10B

Figure 15

16. Tangent Table

Height On Level Ground 

- Figure 15 (Left)

Height =

(tanA + tanB) x distance

=

(tan30° + tan14°) x 66’

=

(.577 + .249) x 66’

Height =

(.826) x 66’ = 54.516 = 54.5’

Hauteur au niveau du sol

 – Figure 15 à gauche

Hauteur = (tangente A + tangente B) x distance

= (tangente 30° + tangente 14°) x 66 pi
= (,577 + ,249) x 66 pi

Hauteur = (,826) x 66 pi = 54,516 = 54,5 pi

Height On Sloping Ground 

- Figure 15

(Right)
Height =

(tanA - tanB) x distance

=

(tan42° - tan4°) x 66’

=

(.900 + .070) x 66’

Height =

(.830) x 66’ = 54.780 = 54.8’

Hauteur en sol incliné

 – Figure 15 à droite

Hauteur = (tangente A - tangente B) x distance

= (tangente 42° - tangente 4°) x 66 pi
= (,900 + ,070) x 66 pi

Hauteur = (,830) x 66 pi = 54,780 = 54,8 pi

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11. Triangulation 

is used to locate your present position with the Field Bearing

to Map method.  By plotting (drawing) bearings from three identifiable
landmarks in the field to your map, a triangle will be formed.  Your present
location is found inside the plotted triangle. (Figure 11)

12. Inclination Using Yellow Clinometer Needle (Model 8040, Only)
a.)

 Open cover completely and rotate the graduated dial until “W’ (270°) is at the

Index Line (located at mirrored end of compass).  (Figure 12A)

b.)

 Hold compass at eye level, on its side with mirror to the right.  The ‘yellow’

clinometer needle shoud move freely.

c.)

 Slope mirrored end upward, with the terrain.  Read inclination where the

‘yellow’ needle points at the azimuth ring (20°).  (Figure 12B)

13. Inclination Using Base Plate (Models 8040 & 9020)
a.)

 Hold compass at eye level and arms length.

b.)

 Position compass so the straight edge of the base is parallel to the ground.

(Figure 13)

c.)

 With sloping ground through

the “+” and the inclinometer scale,
read inclination at the scale (35°).
(Figure 13)

14. Vertical Height Measurement
(Model 8040, Only)
a.)

 Rotate graduated dial until W (270°) is

at the index line (located
at mirrored end of
compass).

b.)

 With compass on its

side and mirror out to the
right, open mirror until
you can see the
reflection of the
graduated dial (approx.
45°).

c.)

 Sight to top of object.

(Figure 14)

d.)

 In reflection, read

inclination where the
‘yellow’needle points at the
graduated dial.

e.)

 Use level or sloping ground

illustation, and the tangent
table to calculate vertical
height.  (Figure 15)

15. Degree to % Grade
a.)

 Sight inclination angle, find the tangent of the angle and move decimal two

places to the right.

Example:  Angle=20°:  Tan(20°) = .364 = 

36.4% grade

Figure 13

Figure 14

Figure 4

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