The Cylindrical coordinate system reference article from the English Wikipedia on 24-Apr-2004 (provided by Fixed Reference: snapshots of Wikipedia from wikipedia.org)

Cylindrical coordinate system

The cylindrical coordinate system is a three-dimensional system which essentially extends circular polar coordinates by adding a third coordinate (usually denoted ) which measures the height of a point above the plane.

A point P is given as . In terms of the Cartesian coordinate system:

• is the distance from O to P', the orthogonal projection of the point P onto the XY plane. This is the same as the distance of P to the z-axis.
• is the angle between the positive x-axis and the line OP', measured anti-clockwise.
• is the same as .

Some mathematicians indeed use .

Cylindrical coordinates are useful in analyzing surfaces that are symmetrical about an axis, with the z-axis chosen as the axis of symmetry. For example, the infinitely long circular cylinder that has the Cartesian equation x² + y² = c² has the very simple equation r = c in cylindrical coordinates. Hence the name "cylindrical" coordinates.

Table of contents

1 Conversion from cylindrical to Cartesian coordinates 2 Conversion from Cartesian to cylindrical coordinates 3 Conversion from cylindrical to spherical coordinates 4 Conversion from spherical to cylindrical coordinates 5 See also

Conversion from cylindrical to Cartesian coordinates

Conversion from Cartesian to cylindrical coordinates

Conversion from cylindrical to spherical coordinates

where φ is the azimuth and θ' is the latitude.

Conversion from spherical to cylindrical coordinates

where φ is azimuth and θ is latitude.

See also

• Cartesian coordinate system
• Spherical coordinate system
• Parabolic coordinate system

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