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====== Deriving the Differential Form of Ampere's Law ======











===== Prompt =====

**"Use Stoke's theorem,**  $$ \int_{inside} \left( \vec{\nabla} \times \vec{F} \right) \cdot d\vec{\sigma}=\int_{loop} \vec{F} \cdot d\vec{r}$$

**to derive the differential form of Ampere's Law"**

$$\int{\vec{B}\cdot{\vec{dr}}}=\mu_{0}I_{encl}$$

===== Context =====

This [[strategy:smallwhiteboard:|SWBQ]] ...

===== Wrap Up =====

{{vfswstokes.ppt|Powerpoint slide}}
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{{vfswstokes.pdf|PDF slide}}

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