Vector calculus
From Wikinfo
[[es:C�lculo vectorial]] [[pt:C�lculo vetorial]]
Vector calculus is a field of mathematics concerned with multivariate real analysis of vectors in 2 or more dimensions. It consists of a suite of formulas and problem solving techniques very useful for engineering and physics.
We consider vector fields, which associate a vector to every point in space, and scalar fields, which associate a scalar to every point in space. For example, the temperature of a swimming pool is a scalar field: to each point we associate a scalar value of temperature. The water flow in the same pool is a vector field: to each point we associate a velocity vector.
Three operations are important in vector calculus:
- gradient: measures the rate and direction of change in a scalar field; the gradient of a scalar field is a vector field.
- curl: measures a vector field's tendency to rotate about a point; the curl of a vector field is another vector field.
- divergence: measures a vector field's tendency to originate from or converge upon certain points; the divergence of a vector field is a scalar field.
Most of the analytic results are more easily understood using the machinery of differential geometry, for which vector calculus forms a subset.
See also: list of multivariable calculus topics.
References
- Adapted from the Wikipedia article, "Vector_calculus" http://en.wikipedia.org/wiki/Vector_calculus, used under the GNU Free Documentation License
