FIELD-EXPEDIENT SURVEY TECHNIQUES

Similar documents
PREPARATION OF FIRE CONTROL EQUIPMENT

FM CHAPTER 6 DIRECTION

6-1. METHODS OF EXPRESSING DIRECTION

Referred Deflection. NOTE: Use 2800 and 0700 to avoid any sight blocks caused by the cannon. Figure Preparation of the plotting board.

Reconnaissance and Surveillance Leader s Course Map Reading self study worksheet (Tenino, Washington Map)

LESSON 6: DETERMINING DIRECTION

Lesson 7 Determining Direction. Key Terms. azimuth back azimuth degree grid azimuth grid north magnetic azimuth magnetic north true north

TEST EXAM PART 2 INTERMEDIATE LAND NAVIGATION

Lesson 4: Angular measure and azimuths

Unit 1, Lesson 1: Moving in the Plane

DIRECTION W140003XQ STUDENT HANDOUT

Reteach. Chapter 14. Grade 4

LOCATION W140005XQ STUDENT HANDOUT

GSN SunShot Procedures Using Internet Solar Position Calculator

CE 260 SURVEYING CHAPTER 5 THEODOLITES

Optics INTRODUCTION DISCUSSION OF PRINCIPLES. Reflection by a Plane Mirror

Total Station & Distomat

Surveying Prof. Bharat Lohani Indian Institute of Technology, Kanpur. Lecture - 1 Module - 6 Triangulation and Trilateration

Making Science Graphs and Interpreting Data

Total station assignment

ATNS. USING Google EARTH. Version 1

Lesson 5: Definition of Rotation and Basic Properties

Geometry Transformations

Transformation, tessellation and symmetry line symmetry

Lesson 1. Rigid Transformations and Congruence. Problem 1. Problem 2. Problem 3. Solution. Solution

Worksheet on Line Symmetry & Rotational Symmetry

Shedding Light on Reflection Question Sheet Name: Part A: Light Reflection 1. What is a luminous object? Give three examples.

Are you ready for Beast Academy 4B?

1. In chain surveying tie lines are primarily provided a) to check the accuracy of the survey b) to take offsets for detail survey c) to avoid long

TOPOGRAPHICAL AND SITE SURVEY (Standard Of Procedure)

1. Introduction Surveying Method chosen depends on:


3.1 Units. Angle Unit. Direction Reference

Angles and Directions

Trigonometry for Surveyors p. 1 Trigonometry p. 1 Angles and Their Measurement p. 1 Expressing the Fractional Part of a Degree in Minutes and Seconds

AngLegs Activity Cards Written by Laura O Connor & Debra Stoll

Theodolite Instructions

Glossary Common Core Curriculum Maps Math/Grade 6 Grade 8

Review of 7 th Grade Geometry

Introduction to Google SketchUp

Homework #2 Posted: February 8 Due: February 15

Name Date Class Practice A. 7. How many degrees do you have to rotate any figure to get it back to its original position?

Section 1.4: Adding and Subtracting Linear and Perpendicular Vectors

2. A straightedge can create straight line, but can't measure. A ruler can create straight lines and measure distances.

Purpose : Understanding Projections, 12D, and the System 1200.

AW Math 10 UNIT 7 RIGHT ANGLE TRIANGLES

Geometry Summer Packet

Activity The Coordinate System and Descriptive Geometry

Washington State Math Championship 2009 Geometry 5 th

Geometry Vocabulary. acute angle-an angle measuring less than 90 degrees

Butterflies, Pinwheels, and Wallpaper

FACULTY OF CIVIL ENGINEERING & EARTH RESOURCES ENGINEERING SURVEY FIELDWORK. CURVE RANGING COMPUTATION & SETTING-OUT (Standard Of Procedure)

Distance in Coordinate Geometry

Angles, Polygons, Circles

Chapter 8. Properties of Triangles and Quadrilaterals. 02/2017 LSowatsky

Mini-Project 1: The Library of Functions and Piecewise-Defined Functions

Angle, symmetry and transformation

DRONACHARYA GROUP OF INSTITUTIONS, GREATER NOIDA Department of CIVIL Engineering Semester: III Branch: CIVIL Session: Subject: Surveying Lab

SketchUp. SketchUp. Google SketchUp. Using SketchUp. The Tool Set

CCGPS UNIT 2 Semester 1 ANALYTIC GEOMETRY Page 1 of 15. Right Triangle Geometry Name:

Super Gelatin. Explore Your challenge is to find the index of refraction for your gelatin sample.

Level 6 Graduate Diploma in Engineering Engineering surveying

Day 5: Inscribing and Circumscribing Getting Closer to π: Inscribing and Circumscribing Polygons - Archimedes Method. Goals:

MAHATMA GANDHI MISSION S JAWAHARLAL NEHRU ENGINEERING COLLEGE, AURANGABAD. (M.S.)

Number/Computation. addend Any number being added. digit Any one of the ten symbols: 0, 1, 2, 3, 4, 5, 6, 7, 8, or 9

Section 4.1 Investigating Circles

ENGI 3703 Surveying and Geomatics

The Number Plane THE NUMBER PLANE PASSPORT.

Geometry. Name. Use AngLegs to model each set of shapes. Complete each statement with the phrase "is" or "is not." Triangle 1 congruent to Triangle 2.

Distance in mm from nearest latitude line to location x 150 = seconds of latitude Distance in mm between latitude 2.5 tick marks (along the sides)

Working Model Tutorial for Slider Crank

"Unpacking the Standards" 4th Grade Student Friendly "I Can" Statements I Can Statements I can explain why, when and how I got my answer.

Sy m met ry. Draw some patterns of your own, using centimetre squared paper and use the mirror to complete the reflected patterns.

Coordinates - Activity 1 Plotting whole number ordered pairs.

Consolidation Worksheet

Section 12.1 Translations and Rotations

Mathematics Success Grade 8

Name Course Days/Start Time

Name: Pythagorean theorem February 4, 2013

Fundamentals and Practices Sixth Edition

PERSPECTIVES ON GEOMETRY PRE-ASSESSMENT ANSWER SHEET (GEO )

Distance in mm from nearest latitude line to location x 150 = seconds of latitude Distance in mm between latitude 2.5 tick marks (along the sides)

Developmental Math An Open Program Unit 7 Geometry First Edition

Physical Geography Lab Activity #08

Angles, Straight Lines and Symmetry

NOTES: TRANSFORMATIONS

Unit 1, Lesson 1: Tiling the Plane

(40-455) Student Launcher

Student Instruction Sheet: Unit 4, Lesson 1. Similar Triangles

Name: Pythagorean Theorem February 3, 2014

Unit 1 NOTES Honors Math 2 1

FILE MENU New Starts a New Blank Canvas Open- Allows you to import designs into the program. Close- Closes the current Design

Study Guide and Review

Index of Refraction and Total Internal Reflection

Control of an 8-Legged, 24 DOF, Mechatronic Robot

Reflection and Refraction

Graphing Single Subject Research Data. AAC Colloquium October 18 th, 2017

LIGHT: Two-slit Interference

AWM 11 UNIT 4 TRIGONOMETRY OF RIGHT TRIANGLES

Rotations and Translations

Transcription:

APPENDIX C FIELD-EXPEDIENT SURVEY TECHNIQUES Surveyed locations may be provided by the artillery survey personnel. Normally, a map spot location to six-digit or eight-digit grid coordinates is estimated by the platoon supervisor most qualified. With the roving mortars concept, new methods of position location are needed. Two such methods are described in this appendix. The mortar position should be constantly improved to include more accurate platoon center location. C-1. GRAPHIC RESECTION A graphic resection can be used to establish the coordinates of a point or to check the accuracy of a map spot. If the resection cannot be performed from platoon center, the platoon center coordinates can be estimated on the basis of the coordinates of the nearby resected point. The platoon may be required to locate its own roving gun (split section); and primary, alternate, or supplementary position as accurately as possible. Often, the location of those positions can be determined by a simple map spot location. Whenever possible, a more accurate method of location should be used. Graphic resection is a simple method using the aiming circle, tracing paper, and a map. a. Identify three distant points that also appear on a map (Figure C-l). b. With an aiming circle, measure the azimuth to those points. Preferably, the angles between the points should be greater than 400 mils. C-1

c. On tracing paper, place a dot representing the aiming circle location. d. Draw a line from this dot in any direction (Figure C-2). e. With a protractor aligned with the correct azimuth on the line (Figure C-3), draw two lines from the aiming circle location on the measured azimuths (Figure C-4). C-2

f. Place the tracing paper over the map of the area and slide it around until it is positioned so that the three lines pass through their respective distant points (Figure C-5). The dot on the tracing paper represents the location of the aiming circle (mortar position) on the map. C-3

g. If the agles are plotted with a standard protractor (accurate to about 10 mils) and oriented over a 1:50,000 scale map, the resection should be accurate within 100 meters. C-2. HASTY SURVEY A terrain feature or man-made object is needed close to the desired mortar position for a hasty survey. This identifies the mortar position on a map by eight-digit grid coordinates. The hasty survey begins at that point, using the pivot point of the M16/M19 plotting board to represent that selected known position (Figure C-6). a. To begin the hasty survey, set the M2 aiming circle over the known point, level it, index the declination constant using the azimuth micrometer knob, and, with the nonrecording (lower) motion, orient the magnetic needle toward north. Now the grid azimuth can be measured. b. While the circle man is measuring the grid azimuths, an assistant (the post man) moves toward the desired mortar position with the two aiming posts. (Before moving, the post man will have joined the posts together and placed reflective or black tape strips exactly 2 meters apart on each post.) The posts thus become a subtense bar (Figure C-7). c. At this point, the first leg of the hasty survey can be done. The circle man directs the post man to move toward the desired mortar position until he is within C-4

290 meters and to place the posts into the ground. This point on the ground becomes traverse station 1 (TS-1). d. The "circle" man then rotates the azimuth motion (upper motion) until the vertical crossline in the telescope is on the center of the posts. He records the azimuth to the posts and labels it traverse leg 1 (TL-1) (Figure C-8, page C-6). e. Next, the post man removes the posts and holds them parallel to the ground, facing the aiming circle. C-5

f. The circle man measures the mil angle between the two strips of tape on the posts (subtense bar) and records the mil reading along with the azimuth to TS-1 (Figure C-8). g. The posts are then replaced into the ground. The circle man moves forward to this point and sets up the aiming circle directly over this point. This completes the first traverse leg. h. This procedure is repeated until the desired mortar position is reached. Either the information obtained may be written down as an azimuth, a mil angle, and a traverse station or a diagram may be constructed (Figure C-9). (To avoid confusing others working with a hasty survey, any diagram should reflect the route of the various traverse legs and should be close to scale.) (1) The information recorded by the circle man goes to the FDC either as the traverse legs are made or after all the legs have been completed. The beginning known point is represented by the pivot point of the M16/M19 plotting board. (2) Starting at the pivot point, the data are applied on the board for each leg of the hasty survey for example: (a) The azimuth on the first traverse leg was 5790 mils. (b) Index that information on the M16/M19 plotting board. (c) The distance between the two strips of tape on the aiming posts was 18.5 mils. C-6

(d) Refer to the distance tables (Table C-1) for the 2-meter subtense bar width; a mil angle of 18.5 mils is equal to a distance of 110 meters. (For the hasty survey, make one square on the plotting board equal to 25 meters.) (e) From the pivot point on the direction of 5790 mils, move 110 meters (4 2/5 squares) along the index line, place a dot, and circle it. This point, marked as TS-1, completes traverse leg 1. (f) The azimuth for the second traverse leg was 4786 mils. (g) Again, index this information on the plotting board. (h) At TS-2, the mil angle measured for the 2-meter subtense bar width was 10.1 mils. (i) Refer to the distance table for the 2-meter subtense bar width; 10.1 mils equals a distance of 200 meters. (j) With 4786 mils indexed on the plotting board, move up 200 meters from TS-1 along or parallel to a vertical line (eight squares), place a dot, and circle it. (k) This point, marked TS-2, completes traverse leg 2. Repeat the same procedure for traverse legs 3, 4, and 5. C-7

(1) Rotate the M16/M19 plotting board until TS-5 (mortar position) is directly over the vertical centerline. (m) Read the azimuth from the top of the plotting board; this is the direction from the known starting point to the base mortar squads position. (n) Count the number of squares along the index line between the pivot point and TS-5 (remember: each square equals 25 meters). This is the straight-line distance from the known starting point to the base mortar squads position. (o) If given data were properly applied in the example, a known starting point-base mortar squad azimuth should have been obtained of 5961 mils, and a known starting point-based mortar squad distance of 690 meters (+/-5 mils and 10 meters). (p) Apply these data to the map. From the known starting point along the direction of 5961 mils, move 690 meters. The new point is the eight-digit grid coordinates for the base mortar squad s position. (p) The FDC now establishes a modified-observed firing chart or, if the FO can find an eight-digit location in the target area, establish a surveyed firing chart. C-8

2024 © technodocbox.com Privacy Policy | Terms of Service | Feedback