background image

The  CAMMENGA  LENSATIC  COMPASS  uses  induction 

damping  to  slow  the  rotation  of  the  magnet.    Induction 

damping allows the Dial to seek Magnetic North and come to 

a  complete  rest  in  much  less  time  than  a  unit  without 

induction damping.  It is a velocity dependent force; that is, as 

the  speed  of  the  oscillation  of  the  Dial  comes  to  rest,  the 

damping force is zero.  Induction damping proves to be far 

superior  to  liquid  damped  compasses  which  are  subject  to 

leakage and eventual failure.

The CAMMENGA LENSATIC COMPASS features:

• A  Dial  balanced  on  a  precision  made  synthetic  sapphire 

jeweled bearing. 

• Induction damping by means of a copper damping shell so 

that Dial comes to rest within six seconds. 

• A rubber cup sealing the copper damping shell, making the 

compass waterproof. 

•  Operational  temperature  ranges  from  -50  degrees  F.  to 

+160 degrees F. 

For more information on the 

CAMMENGA LENSATIC COMPASS, 

and other products offered by 

CAMMENGA, please visit 

www.cammenga.com

13

Coordinates  are  determined  using  the  North/South  and 

East/West  lines  on  a  map  (grid  lines).  Positions  are 

determined on a map by intersecting coordinates. The lower 

left is the origin and coordinates are read to the right and then 

up. (see fig. 5)

The position of “X” is read 04-24.  Read the number from the 

left to the right, then from the bottom to the top. For greater 

accuracy, each of the boxes created by the grid lines can be 

divided into 10 imaginary lines in both directions. Since the 

position  of  “X”  is  not  directly  on  one  of  the  grid  line 

intersections,  repeat  the  steps  explained  above  with  these 

imaginary  lines.  The  position  of  “X”  would  then  be  read 

045-245.

1    2    3    4    5    6    7    8    9

28
27
26
25
24
23
22
21
20

X

12

APPENDIX

SECTION  

 

 

 

PAGE

A. Introduction  

 

 

 

1

B. Parts of the Lensatic Compass 

 

 

1

Figure 1   

 

 

 

1

1. Luminous Bezel Indicator  

 

 

2

2. Dial    

 

 

 

2

3. Scale Edge  

 

 

 

2

4. Sight Wire  

 

 

 

2

5. Bezel    

 

 

 

2

6. Case Cover  

 

 

 

3

7. Case    

 

 

 

3

8. Thumb Loop  

 

 

 

3

9. Lanyard  

 

 

 

3

10. Lens Bracket  

 

 

 

3

11. Lens   

 

 

 

3

12. Sight Groove  

 

 

 

3

13. Index Line  

 

 

 

3

C. Determine Direction (Sighting an Azimuth)  

 

4

1-3 

 

 

 

 

4

Figure 2   

 

 

 

4

D. To Set a Course (Follow an Azimuth)   

 

5

1st Method 1-2 

 

 

 

5

2nd Method 1-4 

 

 

 

5

3rd Method 1-3 

 

 

 

6

E. Proceeding Along an Azimuth 

 

 

6

1-3  

 

 

 

 

6

Fig. 3a - alternate steering marks    

 

6

Fig. 3b - back azimuth   

 

 

7

 

 

 

 

7

F. Declination Adjustment (Orienting a Map)  

 

7

1st Method - using declination diagram  

 

7

2nd Method - without declination diagram (1-3)    

8

3rd Method - when position on map is known (1-4)  

8

G. Locating Position Using Intersection   

 

9

1-7 

 

 

 

 

9

H. Night-Time Use 

 

 

 

9

1-4  

 

 

 

 

9

I. Definitions   

 

 

 

10

1. Azimuth  

 

 

 

10

2. North   

 

 

 

10

Figure 4 - declination diagram  

 

 

10

a. True North  

 

 

 

10

b. Magnetic North  

 

 

 

10

c. Grid North  

 

 

 

10

3. Magnetic declination  

 

 

11

J. General Information 

 

 

 

11

3. Magnetic Declination - The horizontal angle (difference in 

degrees)  between  Magnetic  North,  Grid  North,  and  True 

North.    Magnetic  declination  varies  from  area  to  area  and 

from time to time: Generally about 1’ (one minute) per year 

(There are 60 minutes to one degree).  The declination will be 

shown in the marginal information on your map.  When the 

lensatic compass is used with a map, an adjustment should 

be made to allow for the declination.

J. GENERAL INFORMATION

Readings should never be taken near visible masses of iron 

or electrical circuits, because of their effects on the compass 

magnet. The  following  are  suggested  as  approximate  safe 

distances to insure proper functioning of the compass: 

a. High tension power lines 

          55 meters (60 yards) 

b. Car, truck, camper   

          18 meters (20 yards) 

c. Telephone lines, wire fences            10 meters (11 yards) 

d. Rifle, metal boxes, etc. 

          0.5 meters (1.5 feet)

The  map  scale  index  is  usually  found  in  the  marginal 

information on a map.  Corresponding ground distances of 

some commonly used map scales are shown below:

Fractional Scale  

Simple Conversion

1:24,000   

 

1 in = 2000 ft

1:25,000   

 

1 mm = 100 m

1:50,000   

 

1 mm = 50 m

1:62,500   

 

1 in ~ 1 mi

1:100,000  

 

1 cm = 1 km

1:125,000  

 

1 in ~ 2 mi

1:250,000  

 

1 in ~ 4 mi

I. DEFINITIONS 

1.  Azimuth  -  A  horizontal  angle  in  respect  to  North  (360 

degrees,  6400  mils).  The  number  directly  under  the  black 

Index Line reads an azimuth on the Dial  in either degrees or 

mils. Example: azimuth of 90 degrees or 1600 mils (read 16) 

is due East. 

2. North - Generally, a topographical 

map  shows  three  Norths  in  the 

declination diagram. (fig. 4) 

a. True North - The actual position of 

the North Pole of the earth’s surface. 

(shown  in  figure  4  by  a  ray  or  line 

tipped with a star). 

b. Magnetic North - An irregular and 

wavering magnetic force which tends 

to  run  generally  Northward  and 

Southward,  causing  a  compass  to

point variously, depending on location. (Shown in figure 4 by 

a  ray  tipped  with  MN  And/or  a  single  barbed  spear). 

c.  Grid  North  -  The  North  indicated  by  the  map  meridians 

running  longitudinally.    Because  of  the  earth’s  curvature, 

these  lines  are  often  pulled  a  little  away  from  the 

true meridian in order to provide a straight line, rectangular 

layout of grid lines. (shown in figure 4 by a ray tipped with 

GN.) 

GN

MN

1° 54’

34 mils

18° 18’

325 mils

(FIGURE 4)

10

11

14

(FIGURE 5)

G. LOCATING POSITION USING INTERSECTION

1. Orient the map to the terrain. 
2. Sight an azimuth to any visible terrain feature that appears 

on the map. 
3. Place the fully opened lensatic compass on the map with 

the scale edge running through the terrain feature and with 

the compass reading the same as the azimuth sighted.  Draw 

a line along the scale edge. 
4. Pick another visible terrain feature and sight its azimuth. 

For greater accuracy the two lines should be approximately 

right angles. 
5. Repeat step 3. 
6. The point of intersection accurately locates your position 

on the map. 
7. From here you can determine the azimuth of bearing to 

any terrain feature shown on the map as long as your map is 

oriented. 

H. NIGHT-TIME USE

1. To set a course, follow instructions in the 3rd method under 

section D. TO SET A COURSE. 
2. With your course determined, hold the lensatic compass 

open and level in both hands, with the index finger of the right 

hand along the side of the compass. 
3. Position the compass approximately halfway between the 

chin  and  the  belt,  keeping  the  North  arrow  under  the 

Luminous Bezel Indicator. 
4. Proceed forward in the direction that your index finger is 

pointed.

9

2nd Method - With no declination diagram shown on the map. 

1.  Find  the  magnetic  declination  value  in  the  map  margin. 

This  will  state  the  difference  between  True  North  and 

Magnetic  North  to  be  so  many  degrees  East  or  West. 

Example: Magnetic declination 11 degrees West means The 

North  arrow  of  the  lensatic  compass  will  point  11  degrees 

West of True North. 

2. Place the fully opened compass on the map with the scale 

edge alongside a North/South meridian (longitudinal line, grid 

line). The case cover should be pointing toward the top of the 

map. 

3. Turn  the  map  and  the  compass  together  until  the  North 

arrow of the Dial is the same number of degrees East or West 

of  the  Index  Line  as  stated  on  the  map.  The  map  is  now 

oriented to the terrain. 

3rd Method - When your position on the map is known. 

1. Select a prominent terrain feature on the ground that can 

also be located on the map.

2. Sight an azimuth from your position on the ground to the 

selected terrain feature. 

3. Align  the  fully  opened  compass  on  the  map  so  that  the 

scale edge runs through the selected terrain feature and your 

known position. 

4.  Turn  the  map  and  compass  together  until  the  azimuth 

sighted lies under the Index Line. The map is now oriented to 

the terrain. 

8

a.  Head  for  the  point  on  the  travel  path  that  is  beside  the 

alternative  steering  mark.  At  this  position  sight  a  back 

azimuth  to  the  old  steering  mark.  A  back  azimuth  is  180 

degrees away from a traveled azimuth. If traveled azimuth is 

less than 180 degrees, add 180 degrees.  If traveled azimuth 

is more than 180 degrees, subtract 180 degrees.

b. The  correct  back  azimuth  of  the  desired  azimuth  is  340 

degrees  which  is  180  degrees  plus  the  desired  azimuth  of 

160 degrees; therefore, you will have to move perpendicular 

to  your  path  until  you  can  sight  a  back  azimuth  of  340 

degrees to the old steering mark. You are now back on your 

correct originally desired course.

4. In darkness, use steering marks that are closer together 

and have a distinct silhouette against the sky.

F. DECLINATION ADJUSTMENT (ORIENTING A MAP)

1st Method - Using the maps declination diagram. (see fig. 4, 

section I) 

Place  the  fully  opened  lensatic  compass  on  map  with  the 

scale  edge  alongside  the  Magnetic  North  line  of  the 

declination diagram. Adjust the map (with compass on it) so 

that  the  compass  cover  points  to  Magnetic  North  (North 

arrow of compass is pointing directly to the Index Line). The 

map is now oriented to the terrain.

X

Old 

Steering Mark

Correct Back Azimuth

340°, 5040 mils

Alternate Steering Mark

167°, 2970 mils

Path

(FIGURE 3b)

7

3rd Method 

1.  Turn  the  fully  opened  compass  and  rotate  the  Bezel  to 

align  the  lights  in  the  case  cover  with  the  Luminous  Bezel 

Indicator. 

2. Rotate the Bezel counterclockwise to the azimuth desired. 

Each  distinct  click  of  the  Bezel  represents  3  degrees. 

Example: you want to follow a course of 120 degrees. Divide 

120  by  3.  The  result  is  40:  therefore,  rotate  the  Bezel  40 

clicks counterclockwise. 

3. Turn the compass until the North arrow lies directly under 

the Luminous Bezel Indicator. The direction indicated by the 

lights in the case cover points the desired course. 

E. PROCEEDING ALONG AN AZIMUTH 

1.  With  your  lensatic  compass  pointing  along  a  desired 

azimuth, find an easily identified object that is in line with the 

Sight Groove of the Lens Bracket and the Sight Wire (fig. 2). 

This “steering mark” should be distinct from surroundings.  It 

should be visible at all times along the route and should be 

identifiable when reached.

2.  If  your  steering  mark  is  lost  to  view,  stop,  re-sight  and 

select a new steering mark immediately. 

3.  If  a  good  steering  mark  is  not  in  line  with  your  desired 

azimuth, select an alternative steering mark off to the side. 

See fig. 3a. 

X

Old 

Steering Mark

Desired Azimuth

160°, 2840 mils

Alternate Steering Mark

167°, 2970 mils

Path

(FIGURE 3a)

6

D. TO SET A COURSE (FOLLOW AN AZIMUTH)

 

1st Method

1. With the lensatic compass opened wide (fig. 1) and held 

level, turn it horizontally until the azimuth is directly under the 

black Index Line. Example: you want to follow an azimuth of 

120  degrees.  Position  the  Index  Line  over  the  120  degree 

mark. 

2.  Holding  the  lensatic  compass  in  this  position,  rotate  the 

Bezel until the luminous indicator is over the North arrow of 

the Dial. The direction indicated by the open compass is the 

desired course.  As long as the Bezel is not rotated, turning 

the open compass so that the Luminous Bezel Indicator is 

directly over the North arrow of the Dial can check the course. 

2nd Method 

1.  Turn  the  fully  opened  lensatic  compass  and  rotate  the 

Bezel to align the Luminous Bezel Indicator, the black Index 

Line and the North arrow of the Dial. 

2. Subtract the number of degrees, in your desired azimuth, 

from 360 degrees. 

3.  Keeping  the  North  arrow  under  the  Index  Line,  turn  the 

Luminous Bezel Indicator to this result. Example: you want to 

follow a course of 120 degrees. Subtract 120 degrees from 

360 degrees, leaving 240 degrees. Keeping the North arrow 

under  the  Index  Line,  rotate  the  Bezel  until  the  Luminous 

Bezel Indicator is over 240 degrees. 

4. Turn the compass until the North arrow lies directly under 

the Luminous Bezel Indicator. The direction indicated by the 

open case cover points the desired course. 

5

C. DETERMINE DIRECTION (SIGHTING AN AZIMUTH)

1. Open the lensatic compass as shown in figure 2.
a. Case cover should be perpendicular (90°) to the case. 
b. Tilt the Lens Bracket about 30° from perpendicular. Be sure 

the Dial floats freely. 
2.  Sight the lensatic compass. 
a.  Insert thumb through Thumb Loop. 
b.  Hold  the  compass  level  on  the  platform  formed  by  the 

thumb and bent index finger. 
c.  Raise the compass to eye level. 
d.  Align the center of the sighting groove in the Lens Bracket 

with the Sight Wire and a distant object. 
3.  Without  moving  your  head,  or  the  compass,  read  the 

azimuth through the Lens of the Lens Bracket. The azimuth, 

in degrees, is the red mark on the Dial lying directly under the 

Index  Line  of  the  compass  crystal  and  in  mils  is  the  black 

mark on the outer perimeter of the Dial.

Line of Sight

(FIGURE 2)

6000

4000

2000

0

4

6. Case Cover: Closes to protect the compass and reduce 

carrying size. When opened wide (fig. 1), it can be used as a 

straight edge or ruler. When perpendicular (fig. 2), the Sight 

Wire (4) is used to set a course of movement. 
7. Case: Contains and protects the Dial assembly. 
8. Thumb-Loop: Locks the compass in the closed position. 

When opened, it facilitates holding the compass to sight an 

azimuth. (fig. 2). 
9.  Lanyard:  A  loop  of  braided  nylon  cord  to  secure  the 

compass around the neck and ease access to it when carried 

in a shirt pocket. 
10. Lens Bracket: When pushed all the way down it raises the 

Dial off the pivot. When the compass is not being used, it is 

important to raise the Dial in order to prevent damage to the 

pivot (point on which the Dial balances). 
11. Lens: High quality magnifier (about 2.5 inch focal length) 

for  reading  the  Dial  when  positioned  about  30  degrees  off 

perpendicular.  Handle  carefully  with  clean  tissue.  Caution: 

Close Lens Bracket against Bezel glass before closing case 

cover. 
12. Sight Groove: Used to set a course of movement over the 

ground and to determine an azimuth when it is used along 

with the Sight Wire (4), the Index Line (13), and the Dial (2). 
13. Index Line: Black line etched on the crystal over the Dial. 

Used to read an azimuth.

3

1.    Luminous  Bezel  Indicator:  Used  to  mark  an  azimuth 

during day or night. 
2.    Dial:  Displays  direction  in  reference  to  Magnetic  North.  

The Dial is divided into two scales; 
a.  Outer - (black printing) graduated in mils. 

•  6400 mils to a circle 

•  Distance between black marks = 20 mils 

•  Distance between black numerals = 200 mils 

•  N=64(6400), e=16(1600), S=32(3200), W=48(4800) mils
b.  Inner - (red printing) graduated in degrees 

•  360 degrees to a circle 

•  Distance between red marks = 5 degrees 

•  Distance between red numerals - 20 degrees 

•  N-0, E=90, S=180, W=270 degrees 
3.  Scale  Edge  -  5-inch  ruled  scale  (120  millimeters). 

Graduated  at  a  ratio  of  1:50,000.  Distance  on  a 

1:50,000-scale map can be measured up to 6000 meters or 

3.7 miles. The scale edge is useful for measuring distances, 

orienting a map and aligning azimuths. 
4.  Sight Wire: Used along with the Sight Groove (12) of the 

Lens  Bracket  (10)  to  set  a  course  of  movement  over  the 

ground;  or  determine  an  azimuth  by  sighting  on  prominent 

terrain features while reading the Dial (2) using the Lens (11).
5. Bezel: Contains the Luminous Bezel Indicator (1). Has a 

serrated edge and rotates with a distinct clicking action. Each 

click moves the Luminous Bezel Indicator 3 degrees.

2

A. INTRODUCTION 

The  instructions  in  this  booklet  are  for  the  CAMMENGA 

LENSATIC COMPASS currently being distributed by the U.S. 

Army  and  Troop  Command.  This  compass  is  known 

throughout  the  world  for  its  precision,  reliability,  versatility, 

ruggedness and much more. It has helped to save lives in 

times  of  war  and  provided  many  with  recreational  and 

commercial usefulness in times of peace. 

The  lensatic  compass  is  used  to  determine  “azimuths”  or 

“compass  bearings”  (horizontal  angles).  It  is  also  used  to 

follow  a  course  over  the  ground,  orient  or  set  a  map,  and 

determine position of objects in relation to a map. 

B. PARTS OF THE LENSATIC COMPASS

(FIGURE 1)

1:50000

2000

0

1. Luminous Bezel Indicator

2. Dial

3. Scale Edge

4. Sight Wire 

5. Bezel

6. Case Cover

7. Case 

8. Thumb Loop 

9. Lanyard

10. Lens Bracket 

11. Lens

12. Sight Groove

13. Index Line 

1

SECTION  

 

 

 

 

        PAGE 

A. 

INTRODUCTION    

 

 

           1

B. 

PARTS OF THE LENSATIC COMPASS  

           1 

C. 

DETERMINE DIRECTION   

 

           4

 

(SIGHTING AN AZIMUTH)

D. 

TO SET A COURSE  

 

 

           5

 

(3 METHODS TO FOLLOW A BEARING)

E. 

PROCEEDING ALONG AN AZIMUTH  

           6

F.  

DECLINATION ADJUSTMENT  

  

           7 

 

(3 METHODS TO ORIENT A MAP)

G. 

LOCATING POSITION USING INTERSECTION             9

H. 

TOTAL DARKNESS USAGE   

 

           9 

I. 

DEFINITIONS 

 

 

 

          10

J. 

GENERAL INFORMATION   

 

          11 

 

APPENDIX 

 

 

 

          14

INSTRUCTIONAL BOOKLET

100 Aniline Avenue, Suite 258

Holland, Michigan 49424

www.cammenga.com

Phone (616) 392-7999

Fax (616) 392-9432

THE OFFICIAL U.S. MILITARY

PRECISION LENSATIC COMPASS

INSTRUCTIONAL BOOKLET

Summary of Contents for PRECISION LENSATIC

Page 1: ...100 Aniline Avenue Suite 258 Holland Michigan 49424 www cammenga com Phone 616 392 7999 Fax 616 392 9432 THE OFFICIAL U S MILITARY PRECISION LENSATIC COMPASS INSTRUCTIONAL BOOKLET ...

Page 2: ...HTING AN AZIMUTH D TO SET A COURSE 5 3 METHODS TO FOLLOW A BEARING E PROCEEDING ALONG AN AZIMUTH 6 F DECLINATION ADJUSTMENT 7 3 METHODS TO ORIENT A MAP G LOCATING POSITION USING INTERSECTION 9 H TOTAL DARKNESS USAGE 9 I DEFINITIONS 10 J GENERAL INFORMATION 11 APPENDIX 14 INSTRUCTIONAL BOOKLET ...

Page 3: ...vided many with recreational and commercial usefulness in times of peace The lensatic compass is used to determine azimuths or compass bearings horizontal angles It is also used to follow a course over the ground orient or set a map and determine position of objects in relation to a map B PARTS OF THE LENSATIC COMPASS FIGURE 1 1 50 000 2000 0 1 Luminous Bezel Indicator 2 Dial 3 Scale Edge 4 Sight ...

Page 4: ... 20 degrees N 0 E 90 S 180 W 270 degrees 3 Scale Edge 5 inch ruled scale 120 millimeters Graduated at a ratio of 1 50 000 Distance on a 1 50 000 scale map can be measured up to 6000 meters or 3 7 miles The scale edge is useful for measuring distances orienting a map and aligning azimuths 4 Sight Wire Used along with the Sight Groove 12 of the Lens Bracket 10 to set a course of movement over the gr...

Page 5: ... 10 Lens Bracket When pushed all the way down it raises the Dial off the pivot When the compass is not being used it is important to raise the Dial in order to prevent damage to the pivot point on which the Dial balances 11 Lens High quality magnifier about 2 5 inch focal length for reading the Dial when positioned about 30 degrees off perpendicular Handle carefully with clean tissue Caution Close...

Page 6: ...evel on the platform formed by the thumb and bent index finger c Raise the compass to eye level d Align the center of the sighting groove in the Lens Bracket with the Sight Wire and a distant object 3 Without moving your head or the compass read the azimuth through the Lens of the Lens Bracket The azimuth in degrees is the red mark on the Dial lying directly under the Index Line of the compass cry...

Page 7: ...directly over the North arrow of the Dial can check the course 2nd Method 1 Turn the fully opened lensatic compass and rotate the Bezel to align the Luminous Bezel Indicator the black Index Line and the North arrow of the Dial 2 Subtract the number of degrees in your desired azimuth from 360 degrees 3 Keeping the North arrow under the Index Line turn the Luminous Bezel Indicator to this result Exa...

Page 8: ... case cover points the desired course E PROCEEDING ALONG AN AZIMUTH 1 With your lensatic compass pointing along a desired azimuth find an easily identified object that is in line with the Sight Groove of the Lens Bracket and the Sight Wire fig 2 This steering mark should be distinct from surroundings It should be visible at all times along the route and should be identifiable when reached 2 If you...

Page 9: ...ck azimuth of 340 degrees to the old steering mark You are now back on your correct originally desired course 4 In darkness use steering marks that are closer together and have a distinct silhouette against the sky F DECLINATION ADJUSTMENT ORIENTING A MAP 1st Method Using the maps declination diagram see fig 4 section I Place the fully opened lensatic compass on map with the scale edge alongside t...

Page 10: ...ng toward the top of the map 3 Turn the map and the compass together until the North arrow of the Dial is the same number of degrees East or West of the Index Line as stated on the map The map is now oriented to the terrain 3rd Method When your position on the map is known 1 Select a prominent terrain feature on the ground that can also be located on the map 2 Sight an azimuth from your position o...

Page 11: ...es 5 Repeat step 3 6 The point of intersection accurately locates your position on the map 7 From here you can determine the azimuth of bearing to any terrain feature shown on the map as long as your map is oriented H NIGHT TIME USE 1 To set a course follow instructions in the 3rd method under section D TO SET A COURSE 2 With your course determined hold the lensatic compass open and level in both ...

Page 12: ...in figure 4 by a ray or line tipped with a star b Magnetic North An irregular and wavering magnetic force which tends to run generally Northward and Southward causing a compass to point variously depending on location Shown in figure 4 by a ray tipped with MN And or a single barbed spear c Grid North The North indicated by the map meridians running longitudinally Because of the earth s curvature t...

Page 13: ... masses of iron or electrical circuits because of their effects on the compass magnet The following are suggested as approximate safe distances to insure proper functioning of the compass a High tension power lines 55 meters 60 yards b Car truck camper 18 meters 20 yards c Telephone lines wire fences 10 meters 11 yards d Rifle metal boxes etc 0 5 meters 1 5 feet The map scale index is usually foun...

Page 14: ... X is read 04 24 Read the number from the left to the right then from the bottom to the top For greater accuracy each of the boxes created by the grid lines can be divided into 10 imaginary lines in both directions Since the position of X is not directly on one of the grid line intersections repeat the steps explained above with these imaginary lines The position of X would then be read 045 245 1 ...

Page 15: ...ves to be far superior to liquid damped compasses which are subject to leakage and eventual failure The CAMMENGA LENSATIC COMPASS features A Dial balanced on a precision made synthetic sapphire jeweled bearing Induction damping by means of a copper damping shell so that Dial comes to rest within six seconds A rubber cup sealing the copper damping shell making the compass waterproof Operational tem...

Page 16: ... 1st Method 1 2 5 2nd Method 1 4 5 3rd Method 1 3 6 E Proceeding Along an Azimuth 6 1 3 6 Fig 3a alternate steering marks 6 Fig 3b back azimuth 7 4 7 F Declination Adjustment Orienting a Map 7 1st Method using declination diagram 7 2nd Method without declination diagram 1 3 8 3rd Method when position on map is known 1 4 8 G Locating Position Using Intersection 9 1 7 9 H Night Time Use 9 1 4 9 I De...

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