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Problem

In Apostal's calculus volume 2 , there is an example which shows that a solenoidal vector field that is not a curl. Example states that proof is difficult at this stage . Can anyone please me some understanding why this can happen. That is on what kind of open sets a solenoidal vector field is always a curl of some other vector field in that set?

NB-Currently a sophomore .

Bluey
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  • @hardmath thanks for pointing that out. – Bluey Oct 20 '18 at 06:39
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    Can you share Apostol's example of the solenoidal vector field that is not a curl? (P.S. Apostol is also misspelled in the question.) –  Oct 20 '18 at 06:43

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I suppose that a solenoidal field is defined as a field whose divergence is null.

The Poincaré Lemma says that a divergence-free field is the curl of some vector field only if it is defined on a contractible set. ( You can see : What does it mean if divergence of a vector field is zero? )

A classical example is the field:
$$ \bf {V} = \left(\frac{x}{\left(\sqrt{x^2+y^2+z^2}\right)^3},\frac{y}{\left(\sqrt{x^2+y^2+z^2}\right)^3},\frac{z}{\left(\sqrt{x^2+y^2+z^2}\right)^3} \right) $$

that is divergence-free but not a curl of any vector field.

Emilio Novati
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