Horizontal angle
These angle are used to determine the bearings and directions in control surveys,for locating detail when mapping and for setting out all types of structure.

Vertical angle
These angles are used to determine the heights of points and to calculate slope corrections

Horizontal axis Vs Vertical axis

Horizontal axis
The axis about which the telescope (theodolite) along the vertical circle rotates in vertical plane. It is known as trunnion axis

Vertical axis:it is the axis of rotation of the telescope in the horizontal plane

Spire test vs line of colimation

Spire test  is a test carried out to irradicate/remove error  due  to  non perpendicularity  of  horizontal  axis  and  the  vertical  axis in surveying
Spire Test:
1. For the desired relation, the horizontal axis should be perpendicular to the vertical axis.
2. The object of the adjustment is to make the horizontal axis is perpendicular to vertical axis so that horizontal axis is perfectly horizontal when the instrument is levelled.
3. If the adjusment of LOS is done, the LOS will move in a plane when the telescope is plunged. This ensures that this plane will be a vertical plane.


Line of collimation is the line of sight of the telescope of a surveying instrument, defined as the line through the rear nodal point of the objective lens of the telescope and the center of the reticle when they are in perfect alignment.

Collimation in Azimuth Test:
1. There are 2 adjusment which are the horizontal collimation adjusment and vertical collimation adjusment.
2. The purpose of horizontal collimation adjusting is to make the line of sight perpendicular to the horizontal axis of the telescope.
3. The purpose of vertical collimation adjusment is to make the vertical crosslime of the reticle lie in a plane perpendicular to the horizontal axis of the telescope.

Face right is when the vertical circle of an instrument is in the right side of the observer 

 

Face left is when vertical circle of an instrument is in left side of the observer while taking the readings during survey.

 

 

An angle measured directly between two lines, as distinguished in transit traverse from a deflection angle.

 

A deflection angle should never be measured without double centering the instrument, because the error caused by the line of sight not being normal to the horizontal axis of the instrument may be too large to be tolerated. Moreover, the angular error of closure should not exceed the estimated standard deviation for observing an angle from a single setup times the square root of the number of instrument stations. In practice, this estimated standard deviation in angular measurement is usually taken equal to 0.5 to 1.0 times the least count of the instrument used in measuring the angles. If the error exceeds the permissible limit, then observation should be repeated till permissible limit has been achieved.

 

Deflection angle method of traversing is being generally used for open looped closed traverse. It is most useful for the location survey of linear engineering works such as highways, railways, canals and pipelines etc.

 

A bearing is a direction. Bearings are measured clockwise from north, so north is zero degrees, east is 90 degrees, south is 180 degrees, and west is 270 degrees.

 

In trigonometry, an angle is a measure of rotation from one ray to another ray with the same endpoint. Angles are measured counter clockwise from the positive x-axis. The positive x-axis is zero degrees, positive y-axis is 90 degrees, etc.

 

In geometry, angles are measured without regard for direction or orientation. Either ray can be zero and the angle is always positive and between zero and 180 degrees. Angles greater than 180 degrees are called reflex angles.

 

These angle are used to determine the bearings and directions in control surveys, for locating detail when mapping and for setting out all types of structure.

Vertical angle
These angles are used to determine the heights of points and to calculate slope corrections
 

 

The test conducted to bring the horizontal axis perpendicular to vertical axis is called the spire test. This condition ensures that the motion of telescope is in a vertical plane.

 

Desired relation : horizontal axis should be perpendicular to vertical axis.

Object : the object of adjustment is to make the horizontal axis is perpendicular to vertical axis so that horizontal axis is perfectly horizontal when instrument is levelled.

Necessity : if adjustment of LOS is done, LOS will move in the plane when telescope is plunged, this ensures that the plane will be the vertical plane.

Collimation 
2 adjustment which are the horizontal collimation adjustment and vertical collimation adjustment. The purpose of horizontal collimation adjusting is to make the line of sight perpendicular to the horizontal axis of telescope. for vertical collimation adjustment, the purpose is to make the vertical crossline of reticle lie in a plane perpendicular to horizontal axis of the telescope.