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Pythagorean Orthogonality in a Normed Linear Space

Published online by Cambridge University Press:  20 January 2009

Hazel Perfect
Affiliation:
University College, Swansea.
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This note presents a proof of the following proposition:

Theorem. If Pythagorean orthogonality is homogeneous in a normed linear space T then T is an abstract Euclidean space.

The theorem was originally stated and proved by R. C. James ([1], Theorem 5. 2) who systematically discusses various characterisations of a Euclidean space in terms of concepts of orthogonality. I came across the result independently and the proof which I constructed is a simplified version of that of James. The hypothesis of the theorem may be stated in the form:

Since a normed linear space is known to be Euclidean if the parallelogram law:

is valid throughout the space (see [2]), it is evidently sufficient to show that (l) implies (2).

Type
Research Article
Copyright
Copyright © Edinburgh Mathematical Society 1958

References

REFERENCES

[1] James, R. C., “Orthogonality in normed linear spaces”, Duke Math. J., 12 (1945), 291302.CrossRefGoogle Scholar
[2] Jordan, P. and von Neumann, J., “On inner products in linear metric spaces”, Annals of Math., 36 (1935), 719–723.CrossRefGoogle Scholar