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Second variation

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A special case of the $n$-th variation of a functional (see also Gâteaux variation), generalizing the concept of the second derivative of a function of several variables. It is used in the calculus of variations. According to the general definition, the second variation at a point $x_0$ of a functional $f(x)$, defined on a normed space $X$, is

$$ \delta^2 f (x_0, h) = \frac{d^2}{d t^2} f (x_0 + th) |_{t = 0} $$

If the first variation is zero, the non-negativity of the second variation is a necessary, and the strict positivity


$$ \delta^2 f (x_0, h) \geqslant \alpha \| h \|^2, \hspace{1em} \alpha > 0 $$


a sufficient, condition (under certain assumptions) for a local minimum of $f(x)$ at the point $x_0$.

In the simplest (vector) problem of the classical calculus of variations, the second variation of the functional

considered on the vector functions of class with fixed boundary values , , has the form

(*)

where denotes the standard inner product in , while , , are matrices with respective coefficients

(the derivatives are evaluated at the points of the curve ). It is expedient to consider the functional of defined by (*) not only on the space , but also on the wider space of absolutely-continuous vector functions with a square-integrable modulus of the derivative. In this case the non-negativity and strict positivity of the second variation are formulated in terms of the non-negativity and strict positivity of the matrix (Legendre condition) and the absence of conjugate points (Jacobi condition), which are necessary conditions for a weak minimum in the calculus of variations.

A study of the second variation for extremals which may or may not supply a minimum (but, as before, satisfy the Legendre condition) has been carried out in variational calculus in the large [1]. The most important result was the coincidence of the Morse index of the second variation with the number of points conjugate to on the interval [2].

References

[1] M. Morse, "The calculus of variations in the large" , Amer. Math. Soc. (1934)
[2] J.W. Milnor, "Morse theory" , Princeton Univ. Press (1963)
How to Cite This Entry:
Second variation. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Second_variation&oldid=31231
This article was adapted from an original article by V.M. Tikhomirov (originator), which appeared in Encyclopedia of Mathematics - ISBN 1402006098. See original article