Schwere, Elektricität und Magnetismus:388

Vorlage:Bernhard Riemann - Schwere, Elektricität und Magnetismus Vorlage:PageDef2

VECTOR ANALYSIS.

<section begin=t1 /> Vorlage:IdtOr, if $τ$ and $ω$ are two single-valued continuous vector functions of any number of scalar or vector variables, and

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where $α$ is a vector constant.

Vorlage:IdtWhen the above hypotheses are not satisfied in general, but will be satisfied if the variations of the independent variables are confined within certain limits, then the conclusions will hold within those limits, provided that we can pass by continuous variation of the independent variables from any values within the limits to any other values within them, without transgressing the limits.

Vorlage:Idt49. So far, it will be observed, all operations have been entirely analogous to those of the ordinary calculus.

Functions of Position in Space.

<section begin=t1 />Vorlage:Idt50. Def.—If $u$ is any scalar function of position in space, (i. e., any scalar quantity having continuously varying values in space,) $\nabla u$ is the vector function of position in space which has everywhere the direction of the most rapid increase of $u$ , and a magnitude equal to the rate of that increase per unit of length. $\nabla u$ may be called the derivative of $u$ , and $u$ , the primitive of $\nabla u$ .

Vorlage:IdtWe may also take any one of the Nos. 51, 52, 53 for the definition of $\nabla u$ .

Vorlage:Idt51. If $ρ$ is the vector defining the position of a point in space,

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Vorlage:Idt54. Def.—If $ω$ is a vector having continuously varying values in space,

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and

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$\nabla \cdot ω$ is called the divergence of $ω$ and $\nabla \times ω$ its curl.

Vorlage:IdtIf we set

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Schwere, Elektricität und Magnetismus:388

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