## Linear Operators, Part 2 |

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Page 1188

Q.E.D. а The Hilbert space adjoint T * of a bounded operator T in Hilbert space has been

Q.E.D. а The Hilbert space adjoint T * of a bounded operator T in Hilbert space has been

**defined**by the identity ( Tx ... of an operator which is not necessarily bounded and this concept is formulated in the following**definition**.Page 1196

bounded Borel functions into an algebra of normal operators in Hilbert space and thus the above formula

bounded Borel functions into an algebra of normal operators in Hilbert space and thus the above formula

**defines**an ... the self adjoint operator T and let f be a complex Borel function**defined**E - almost everywhere on the real axis .Page 1548

7 = 1 2 - τ extensions of S and Ŝ respectively , and let 2n ( T ) and 2n ( Îy ) be the numbers

7 = 1 2 - τ extensions of S and Ŝ respectively , and let 2n ( T ) and 2n ( Îy ) be the numbers

**defined**for the self ... and let T , be a self adjoint operator in Hilbert space Hz .**Define**the operator T in H = H , H2 by setting D ( T ) ...### What people are saying - Write a review

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### Contents

BAlgebras | 859 |

Bounded Normal Operators in Hilbert Space | 887 |

Miscellaneous Applications | 937 |

Copyright | |

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