Angles and Directions

Vertical angles: plus or minus vertical angle Zenith angles : directly above the observe Nadir angles : directly below the observer

Horizontal Angles horizontal angles are usually measured with a theodolite or total station. For all closed polygons of n sides, the sum of the interior angles will be (n - 2)1800 Interior angles Exterior angles Deflection angles

Traverses A traverse is essentially a series of straight lines connecting points along the path of a survey. The lengths and directions of the lines are measured in the field, and the positions or co-ordinates of the points computed. These points, called traverse stations, are commonly marked with wooden pegs, stakes, nails or iron pipes.

Traversing Traversing is a rapid convenient method for establishing control. The main purposes of traverses are: 1 Property surveys to locate and establish boundaries 2  Supplementary horizontal control for topographic mapping surveys 3  Location and construction layout surveys for highways, railways, and other private or public works

Directions Azimuth is the direction of a line as given by an angle measured clockwise (usually) from the north end of a meridian. Bearing is the direction of a line as given by the acute angle between the line and a meridian. The bearing angle, which can be measured clockwise or counterclockwise from the north or south end of the meridian. is always accompanied by letters that locate the quadrant in which the line falls (NE, NW, SE, or SW).

Traverses – Open Traverses Open traverses originate at a point of known position and end at a point of unknown position. No computational checks are therefore possible to detect any errors or blunders in distances or direction. Open traverses are very risky and should be avoided

Traverses – Closed Traverses Closed traverses start and end on points of known position. Since the beginning and end points are known, this provides a computational check on the measurements and calculations. Systematic errors and blunders can be detected in both the distance and directions. In addition to providing known positions for the start and end points, at least one known bearing or azimuth is also provided for closed traverses. More than one bearing is required to prevent the entire traverse from ‘pivoting’ about a single known point.

Traverses – Loop Traverses A traverse that starts and ends on the same point is called a loop traverse. If the point is known, then it is closed loop traverse. Loop traverses are geometrically and mathematically closed, so it is therefore possible to provide a mathematical check on the sum of the internal angles of the traverse. For a closed polygon   (internal angles) = (n – 2) 180 where n is the number of angles measured.

Traverses – Link Traverses A traverse that starts and ends on different points is called a link traverse. Link traverses can also be either open, starting on a known point and ending on an unknown point, or closed, starting and ending on two different known points. In addition to the known points, closed link traverses also have starting and closing known bearings. Closed-links are geometrically open but mathematically closed.

Closed Traverse

Open Traverse

Azimuths

Bearing

Relationship between Bearing and Azimuth NE Bearing =Azimuth SE Bearing = 180o – Azimuth SW Bearing = Azimuth – 1800 NW Bearing = 3600 - Azimuth

Reverse Directions Reverse Azimuths Reverse Bearings

Reverse Azimuths Differ between forward and back azimuth =1800

Reverse Bearings Just reverse the direction not the angle value

Azimuth Computation When computations are to proceed around the traverse in a clockwise direction, subtract the interior angle from the back azimuth of the previous course. When computations are to proceed around the traverse in a counter-clockwise direction, add the interior angle to the back azimuth of the previous course.

Sketch for Azimuth Computation

Bearing Computation Prepare a sketch showing the two traverse lines involved, with the meridian drawn through the angle station. On the sketch, show the interior angle, the bearing angle and the required angle.

Sketch for bearing Computation

Angle Adjustments- Closed Traverse

Ex1 : A closed five sided field traverse has the following interior angles: A= 125o 25/ 00//, B= 133o 17/ 00//, C= 80o 40/ 30//, D= 88o 10/ 30//, Find the angle at E.

Ex2 : Convert the following Azimuths to Bearings : (a) 200o 50/ (b) 133o 52/ (c) 130o 13/ (d) 271o 49/

Ex3 : Convert the following Bearings to Azimuths : (a) N 45o 45/ E (b) N12o 08/ W (c) S13o 11/ E (d) S 77o 08/ W

Ex4 : Convert the following Azimuths to reverse (back) Azimuths : (a) 200o 50/ (b) 133o 52/ (c) 130o 13/ (d) 271o 49/

Ex5 : Convert the following Bearings to reverse (back) Bearings : (a) N 45o 45/ E (b) N12o 08/ W (c) S13o 11/ E (d) S 77o 08/ W

Ex6 : Closed traverse ABCD has the following bearings: AB= N 60o 50/ E BC= S 42o 48/ E CD= S 7o 33/ W DA= N 66o 03/ W Compute the interior angles and provide a geometric check for your work

Figure 2 Interior Angles A= 63o 47/ 00// B= 140o 28/ 50// C= 101o 30/ 20// D= 72o 48/ 10// E= 161o 25/ 40// Figure 2

Ex7 : If the Bearing of AB is N 490 19/ E, compute the bearings for the remaining sides proceeding in a clockwise direction.

Ex8 : If the Azimuth of AB is 49o 19/ , compute the azimuths for the remaining sides proceeding in a counterclockwise direction.

Assignment 3

Assignment 3 (submission on 19/03/201) 1-a closed traverse has the following interior angles: A= 38o 30/ B= 100o 38/ C= 149o 50/ D= 85o 59/ E= 165o 03/ The Azimuth of AB is 3060 31/ Perform check for angular closure and compute the bearings and azimuths for all sides.

Assignment 3 (submission on 19/03/201) 2-a closed traverse has the following interior angles: A= 51o 23/ 00// B= 105o 39/ 00// C= 78o 11/ D= 124o 47/ The bearing of AB is N 670 17/ E Perform check for angular closure and compute the bearings and azimuths for all sides.