· Whenever a number of base lines are to be run for obtaining the details as in traversing, just linear measurements made by chain surveying will not be sufficient.
· The angles included between the adjacent lines should also be measured
· Compass is one of the instruments used to measure the angles. Prismatic Compass:
Description:
· A magnetic needle is balanced over a pivot in a circular box of 85 mm to 110 mm in diameter.
· A graduated aluminium ring is attached to the magnetic needle.
· An agate cap keeps the aluminium ring stable.
· The box is covered by a glass lid.
· Object vane and eye vane are provided at diametrically opposite ends.
· Eye vane caries a reflecting prism which can be raised or lowered as desired.
· A vertical horse hair or fine wire is provided at the middle of the object vane
· The graduations in the aluminium ring are made in the clockwise direction starting with 0 o at South and 180o at North with inverted markings.
· A triangular prism fitted below the eye slit enables magnification of readings to suit observer’s eye.
· Based on this prism arrangement, the compass is named prismatic compass.
· Compass is fixed over a tripod with ball and socket arrangement.
· A braked pin is provided below the object vane to damp the oscillations of the magnetic needle while taking readings.
Working Principle:
· The magnetic field aligns itself with the magnetic meridian (N-S direction)
· The line of sight is actually the line joining the object vane and eye vane
· The angle between the N-S direction and the line of sight is observed in the compass
· This angle is actually the angle between N-S direction and the line on the ground
· This angle made by the line with the N-S direction is called the bearing of the line.
· Compass is used to measure the bearing of the different lines from which the angles included between the adjacent lines are computed.
How to take reading using compass:
· The compass is centered over the station by dropping a small piece of stone from the centre of the bottom of the compass.
· A plumb bob is used for centering.
· The compass is levelled by adjusting the ball and socket till the top of the box is horizontal.
· The graduated ring should move freely after having levelled the instrument.
· Suppose the bearing of a line PQ is to be observed.
· The compass is centered over P.
· It is levelled.
· The prism and the object vane are kept in vertical position.
· The compass is turned slowly till the ranging rod already erected at Q is bisected.
· In this position, the ranging rod, the object and the eye vane all lie in the same line.
· The focusing prism is raised or lowered till the readings were clear and sharp.
· The reading in the ring cut by the object hair line is taken after damping the oscillations of the ring by pressing the brake pin.
Definitions:
Magnetic Bearing:
· It is the angle between the magnetic meridian and the line.
· The angle is always measured in the clockwise direction
· It is the direction shown by a freely suspended magnetic needle
· The magnetic meridian is also called bearing.
True Bearing:
· True bearing of a line is the angle between the true meridian and the line.
· The angle is always measured in the anticlockwise direction.
· The true meridian is the line joining the geographical north and south bearings.
Whole Circle Bearing:
· The bearing of lines measured from the North is called Whole Circle Bearing.
· The angle is reckoned in the clockwise direction from 0o coinciding with the north.
Quadrant Bearing:
· The whole circle is divided into four quadrants.
· The bearing is expressed with N or S as prefix and E or W as suffix.
· Quadrant Bearing is also known as Reduced Bearing.
Fore Bearing and Back bearing:
· Every line has two bearing namely fore bearing and back back bearing
· Fore bearing is the bearing taken in the direction of surveying and Back bearing is the bearing taken in the reverse direction.
· The difference between the fore bearing and the back bearing should be 180o .
· It means that one or both stations of the line are subjected to local attraction.
· Thus, local attraction is the influence caused on the measured bearings of lines due to the presence of materials like railway track, current carrying wires or cables, etc.,