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Chapter III. Inner-Product Spaces

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This chapter investigates the effects of adding the additional structure of an inner product to a finite-dimensional real or complex vector space.

Section 1 concerns the effect on the vector space itself, defining inner products and their corresponding norms and giving a number of examples and formulas for the computation of norms. Vector-space bases that are orthonormal play a special role.

Section 2 concerns the effect on linear maps. The inner product makes itself felt partly through the notion of the adjoint of a linear map. The section pays special attention to linear maps that are self-adjoint, i.e., are equal to their own adjoints, and to those that are unitary, i.e., preserve norms of vectors.

Section 3 proves the Spectral Theorem for self-adjoint linear maps on finite-dimensional inner-product spaces. The theorem says in part that any self-adjoint linear map has an orthonormal basis of eigenvectors. The Spectral Theorem has several important consequences, one of which is the existence of a unique positive semidefinite square root for any positive semidefinite linear map. The section concludes with the polar decomposition, showing that any linear map factors as the product of a unitary linear map and a positive semidefinite one.

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Anthony W. Knapp, Basic Algebra, Digital Second Edition (East Setauket, NY: Anthony W. Knapp, 2016), 89-116

First available in Project Euclid: 18 July 2018

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Copyright © 2016, Anthony W. Knapp


Knapp, Anthony W. Chapter III. Inner-Product Spaces. Basic Algebra, 89--116, Anthony W. Knapp, East Setauket, New York, 2016. doi:10.3792/euclid/9781429799980-3.

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