Post on 21-Dec-2015
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BSQ3113 Land Surveying
Chapter 1 : Introduction to Surveying
Introduction
Surveying
Science and techniques used to determine the relative and absolute spatial location of points on the earth’s surface.
Involves staking out the lines and grades needed for construction of buildings, roads, dams, & other engineering structures.
Includes the computation of areas, volumes, and other quantities (field measurements), as well as the preparation of necessary maps and diagrams.
Contents
1.1 Units of Measurement
1.2 Measurement Conversions
1.3 Trigonometric Ratios
1.4 Rules of Sine and Cosine
1.5 Area of Triangles
1.6 Scale
1.7 Drawing to Scale
Système Internationale (SI)
Most common system used in the measurement of distance and angle.
Basic and derived units agreed internationally.
1.1 Units of Measurement
Table below shows the basic unit of prime interest :
1.1 Units of Measurement
Quantity Unit SI Symbol
Length metre m
Area square metre m2
Volume cubic metre m3
Mass kilogram kg
Capacity litre l
1.1 Units of Measurement
Prefix Multiplication factor Derived unit SI recommended unit
kilo 1000 kilometre kilometre
hecto 100 hectometre
deca 10 decametre
1 metre metre
deci 0.1 decimetre
centi 0.01 centimetre
mili 0.001 milimetre milimetre
Angle
Measured in degree (sexagesimal unit – numeral system with sixty as its base).
Degree is subdivided into minutes and seconds. (similar to time).
• 1° (degree) = 60’ (minutes)• 1’ (minute) = 60” (seconds)
1.1 Units of Measurement
Linear Volume
1 km = 1,000 m1 m = 100 cm1 cm = 10 mm1 foot = 12 inches1 inch = 2.54 cm1 km = 0.631371 mile
1 m3 = 1,000,000 cm3
1 litre = 1,000 cm3
1 litre = 0.264 U.S. gal
Weight
1 metric ton = 1,000 kg1 kg = 1,000 g1 kg = 2.2 Ib1 Ib = 16 ounces
Area
1 km2 = 1,000,000 m2
1 km2 = 247.1 acres1 hectare = 10,000 m2
Angle
1 degree = 60 minutes1 minutes = 60 secondsπ radian = 180 degrees
1.2 Measurement Conversions
Challenge your mind…
Convert the following measurements to the required unit in brackets :
(a) 3.3 feet [m] Solution 1.2a
(b) 7200’’ [° ’ ’’] Solution 1.2b
1.2 Measurement Conversions
Let R (x, y) be a point in XY coordination system.
θ is an angle formed by lineOR and the x-axis (O is an origin).
If a line is drawn perpendicularto the x-axis at S, a right angletriangle ORS is formed.
OR is called hypotenuse (r),RS is opposite (y), andOS is adjacent (x).
1.3 Trigonometric Ratios
0 x S
r
R
y
(x, y)
y
x
1.3 Trigonometric Ratios
Note:
Challenge your mind…
If coordinate R is (4, 5),determine :
(a) length r(b) sin θ(c) cos θ(d) tan θ(e) angle θ Solution 1.3a, 1.3b-d,
1.3e
1.3 Trigonometric Ratios
y
x0
R (4, 5)
r
1.4 Rules of Sine and Cosine
a
b
c-x
x
C
B
A
Challenge your mind…
If a = 5 cm, b = 6 cm,
c = 7 cm, determine :
(a) angle A
(b) angle B
(c) angle C Solution 1.4a-c
1.4 Rules of Sine and Cosine
a
b
c
C
B
A
1.5 Area of Triangles
b
h
b
h
For a right angle triangle or an arbitrary triangle shown above, if the base (b) and the altitude or height (h) of the triangle are given, then
For an arbitrary triangle shown on the right,
1.5 Area of Triangles
a
b
c-x
x
C
B
A
Challenge your mind…
Determine area of triangle :
(a) If a = 4 m, b = 6 m,and C = 65° 35’ 56”.
Solution 1.5a
(b) If a = 45 cm, b = 50 cm,and c =35 cm
Solution 1.5b
1.5 Area of Triangles
a
b
c
C
B
A
1.6 Scale
Scale Ratio between drawing of an object and actual object itself.
Scale of a map or plan can be shown in 3 ways:• Expressed in words.
e.g. 1 centimetre represents 1 metre.By definition of scale, this simply means that one centimetre on the plan represents 1 metre on the ground.
1.6 Scale
• By a drawn scale.A line is drawn on the plan and is divided into convenient intervals that distances on the map can be easily obtained from it. Scale in the diagram below : Scale of 1 cm represents 1 m.
Note : Diagram is not to scale.
1 0 1 2
1.6 Scale
• By a representative fraction (RF).
A fraction is used, in which the numerator represents the number of units on the map (always unit 1) and the denominator represents the number of the same units on the ground.
For a scale of 1 cm represents 1 m, its RF is 1/100, shown as 1:100, since there are 100 cm in 1 m.
1.6 Scale
• By a representative fraction (RF).
RF-related simple formula for calculating plan area is as follows :
Plan area = Ground area x (RF)2
1.6 Scale
Challenge your mind…
An area of 250 cm2 was measured on a plan,
using a planimeter. Given that the plan scale
is 1:500, calculate the ground area in m2.
Solution
1.6
1.7 Drawing to Scale
The whole idea behind creating scale drawings is to allow the drafter to create a drawing which is proportionately the same as the artifact it represents.
Using a measuring device called a scale, accurate drawings of both very large objects or very small objects can be created and fitted on a standard size piece of paper.
1.7 Drawing to Scale
A surveyor’s main objective is to achieve accuracy in field operations.
Unless results can be depicted accurately, legibly and pleasingly on paper, proficiency in the field is robbed of much of its value.
Some of equipment required for plotting include paper (A4, A3, A1, …), scale rule (usually manufactured with eight scales – 1:1, 1:5, 1:50, 1:100, 1:200, 1:250, 1:1250, 1:2500), two set squares (45° & 60°), protractor, varying grade of pencils, etc.
1.7 Drawing to Scale
Triangular scale :
1.7 Drawing to Scale
Set square :
1.7 Drawing to Scale
Pencil’s grade:
End of Chapter 1
Revise…1.1 Units of Measurement1.2 Measurement Conversions1.3 Trigonometric Ratios1.4 Rules of Sine and Cosine1.5 Area of Triangles1.6 Scale1.7 Drawing to Scale
Solution(s)
Solution 1.2(a)
3.3 feet = 3.3 ft × (12 in. ÷ 1 ft)= 39.6 in.= 39.6 in. × (2.54 cm ÷ 1 in.)= 100.584 cm= 100.584 cm × (1 m ÷ 100 cm)= 1.00584 m
Solution(s)
Solution 1.2(b)
7200’’ = 7200’’ × (1’ ÷ 60’’)= 120’ 0’’= 120’ × (1° ÷ 60’)= 2° 0’ 0’’
Solution(s)
Solution 1.3(a)
r² = x² + y² r² = 4² + 5² r = (4² + 5²)½
= 6.403 unit0 4
6.403
R
5
(4, 5)
y
x
Solution(s)
Solution 1.3(b),(c),(d)
sinθ = 5 ÷ 6.403 = 0.781cosθ= 4 ÷ 6.403 = 0.625tanθ= 5 ÷ 4 = 1.250
0 4
6.403
R
5
(4, 5)
y
x
Solution(s)
Solution 1.3(e)
θ = sin-1 0.781 = 51° 21’ 08”
θ = cos-1 0.625 = 51° 19’ 04”
θ = tan-1 1.250 = 51° 20’ 25”
0 4
6.403
R
5
(4, 5)
y
x
Solution(s)
Solution 1.4(a),(b),(c)
c² = a² + b² - 2abcosC7² = 5² + 6² - 2(5)(6)cosC2(5)(6)cosC = 5² + 6² - 7²
cosC = (5² + 6² - 7²) ÷ ( 2 × 5 × 6) C = cos-1 0.2
= 78° 27’ 47”
a
b
c
C
B
A
Solution(s)
Solution 1.4(a),(b),(c)
A = sin-1 [5 sin(78° 27’ 47”) ÷ 7]= 44° 24’ 55”
B = sin-1 [6 sin(78° 27’ 47”) ÷ 7]= 57° 07’ 18”
a
b
c
C
B
A
Solution(s)
Solution 1.5(a)
Area= ½ ab sin C
= ½ (4)(6) sin 65° 35’ 56”= 10.928 m2
Solution(s)
Solution 1.5(b)
s = (45 + 50 + 35) ÷ 2= 65 cm
= [65(65 – 45)(65 – 50)(65 – 35)]½
= 1099.545 cm2
Solution(s)
Solution 1.6
Plan area = 250 cm2
RF (scale) = 1:500Plan area = Ground area x (RF)2
Ground area = Plan area ÷ (RF)2
= 250 cm2 ÷ (1/500) 2
= 62,500,000 cm2
= 6250 m2
Extra(s)
Planimeter
Precision tool for measuring the areas of irregular shaped objects.
Simply trace the outline of the object and the planimeter will display the area.
This video features the Planix 7 digital Planimeter but the general operation is the same for all digital roller planimeters.