# Equidistant Conic

## Description

This conic projection can be based on one or two standard parallels. As its name implies, all circular parallels are spaced evenly along the meridians. This is true whether one or two parallels are used as the standards.

## Projection method

Cone is tangential if one standard parallel is specified and secant if two standard parallels are specified. Graticules are evenly spaced. Meridian spacing is equal, as is the space between each of the concentric arcs that describe the lines of latitude. The poles are represented as arcs rather than points.

If the pole is given as the single standard parallel, the cone becomes a plane and the resulting projection is the same as a polar Azimuthal Equidistant.

Learn more about the Azimuthal Equidistant projection

If two standard parallels are placed symmetrically north and south of the equator, the resulting projection is the same as the Equirectangular projection. In this case, you must use the Equirectangular projection. Use the Equirectangular projection if the standard parallel is the equator.

## Lines of contact

Depends on the number of standard parallels.

Tangential projections (Type 1)—one line, indicated by the standard parallel.

Secant projections (Type 2)—two lines, specified as the first and second standard parallels.

## Linear graticules

All meridians.

## Properties

### Shape

Local shapes are true along the standard parallels. Distortion is constant along any given parallel but increases with distance from the standard parallels.

### Area

Distortion is constant along any given parallel but increases with distance from the standard parallels.

### Direction

Locally true along the standard parallels.

### Distance

True along the meridians and the standard parallels. Scale is constant along any given parallel but changes from parallel to parallel.

## Limitations

Range in latitude should be limited to 30°.

## Uses and applications

Regional mapping of midlatitude areas with a predominantly east–west extent.

Common for atlas maps of small countries.

Used by the former Soviet Union for mapping the entire country.

## Parameters

### Desktop

- False Easting
- False Northing
- Central Meridian
- Standard Parallel 1
- Standard Parallel 2
- Latitude of origin

### Workstation

Number of standard parallels <1 | 2 >:

Type 1

- Latitude of the standard parallel (DMS)
- Longitude of the Central Meridian (DMS)
- Latitude of the origin (DMS)
- False Easting (meters)
- False Northing (meters)

Type 2

- Latitude of the 1st standard parallel (DMS)
- Latitude of the 2nd standard parallel (DMS)
- Longitude of the Central Meridian (DMS)
- Latitude of the origin (DMS)
- False Easting (meters)
- False Northing (meters)

Supported on spheres only.

geographic_coordinate_systems.pdf | A geographic coordinate systems pdf file which contains lists of supported gcs and vcs. |

projected_coordinate_systems.pdf | A projected coordinate systems pdf file which contains lists of supported pcs. |

geographic_transformations.pdf | A geographic transformations pdf file which contains lists of supported geographic and vertical transformations. |