Polar coordinates: Difference between revisions

Revision as of 13:17, 22 January 2008

Main Article

Discussion

Related Articles ^[?]

Bibliography ^[?]

External Links ^[?]

Citable Version ^[?]

This editable Main Article is under development and subject to a disclaimer.

[edit intro]

File:2D polar coordinates .png

Two dimensional polar coordinates r and θ of vector

\scriptstyle {\vec {\mathbf {r} }}

In mathematics and physics, polar coordinates give the position of a vector $\scriptstyle {\vec {\mathbf {r} }}$ in two-dimensional real space $\scriptstyle \mathbb {R} ^{2}$ . A Cartesian system of two orthogonal axes is presupposed. One number (r) gives the length of the vector and the other number (θ) gives the angle of the vector with the x-axis of the Cartesian system.

Definition

The polar coordinates are related to the Cartesian coordinates x and y through

{\begin{aligned}r&={\sqrt {x^{2}+y^{2}}}\\x&=r\cos \theta \\y&=r\sin \theta ,\\\end{aligned}}

so that for r ≠ 0,

\theta ={\begin{cases}\arccos(x/r)&{\hbox{ if }}y\geq 0\\360^{0}-\arccos(x/r)&{\hbox{ if }}y<0.\\\end{cases}}

@@ Line 1: / Line 1: @@
+{{subpages}}
 [[Image:2D polar coordinates .png|right|thumb|250px|Two dimensional polar coordinates ''r'' and &theta; of vector <math>\scriptstyle \vec{\mathbf{r}}</math>]]
 In [[mathematics]] and [[physics]],  '''polar coordinates''' give the position of a vector <math>\scriptstyle \vec{\mathbf{r}}</math> in two-dimensional real space <math>\scriptstyle \mathbb{R}^2</math>.   A Cartesian system of two orthogonal axes is presupposed. One number (''r'') gives the length of the vector and the other number (&theta;)  gives the angle of the vector with the ''x''-axis of the Cartesian system.

Polar coordinates: Difference between revisions

Revision as of 13:17, 22 January 2008

Definition

Navigation menu

Search