Principle of Permanence
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Principle of Permanence
The function in the middle is given by x2 sin(1/x) for x not equal to 0 and given by 0 for x=0. This cannot be an analytic function, because it has infinitely many zeros in every neighborhood of the origin, but is not itself the zero function.

In mathematics, the principle of permanence states that a complex function, suitably well-behaved, which is 0 on a set containing a non-isolated point is 0 everywhere (or at least on the connected component of its domain which contains the point). There are various statements of the principle, depending on the type of function or equation considered.

## For a complex function of one variable

For one variable, the principle of permanence states that if f(z) is an analytic function defined on an open connected subset U of the complex numbers C, and there exists a convergent sequence {an} having a limit L which is in U, such that f(an) = 0 for all n, then f(z) is uniformly zero on U.[1]

## Applications

One of the main uses of the principle of permanence is to show that a functional equation that holds for the real numbers also holds for the complex numbers.[2]

As an example, the function es+t-eset=0 on the real numbers. By the principle of permanence for functions of two variables, this implies that es+t-eset=0 for all complex numbers, thus proving one of the laws of exponents for complex exponents.[3]

## References

1. ^ 'The Language of Science, Tobias Dantzig, Joseph Mazur, and Barry Mazur, 2007, Penguin Books, pp. 98, 212.
2. ^ Dauben, Joseph W. (1979), Georg Cantor: his mathematics and philosophy of the infinite, Boston: Harvard University Press, ISBN 978-0-691-02447-9.
3. ^ Gamelin, T. Complex Analysis, UTM Series, Springer-Verlag, 2001c