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Page 243
The norm in & is lcc = ( x , x ) 1 / 2 . Remark . Hilbert space has been defined by a
set of abstract axioms . It is noteworthy that some of the concrete spaces defined
above satisfy these axioms , and hence are special cases of abstract Hilbert ...
The norm in & is lcc = ( x , x ) 1 / 2 . Remark . Hilbert space has been defined by a
set of abstract axioms . It is noteworthy that some of the concrete spaces defined
above satisfy these axioms , and hence are special cases of abstract Hilbert ...
Page 256
Whenever the direct sum of normed linear spaces is used as a normed space ,
the norm will be explicitly mentioned . If , however , each of the spaces X1 , . . . ,
Xn are Hilbert spaces then it will always be understood , sometimes without
explicit ...
Whenever the direct sum of normed linear spaces is used as a normed space ,
the norm will be explicitly mentioned . If , however , each of the spaces X1 , . . . ,
Xn are Hilbert spaces then it will always be understood , sometimes without
explicit ...
Page 851
4 ( 59 ) discussion of , ( 82 – 83 ) in F - spaces , II . 1 . ... 72 ( 350 ) , ( 561 ) ideals
of , ( 552 - 553 ) , ( 611 ) identity , ( 37 ) limits of , in B - spaces , I1 . 3 . ... 17 ( 72 )
remarks on , ( 93 ) Orthogonal elements and manifolds in Hilbert space , IV . 4 .
4 ( 59 ) discussion of , ( 82 – 83 ) in F - spaces , II . 1 . ... 72 ( 350 ) , ( 561 ) ideals
of , ( 552 - 553 ) , ( 611 ) identity , ( 37 ) limits of , in B - spaces , I1 . 3 . ... 17 ( 72 )
remarks on , ( 93 ) Orthogonal elements and manifolds in Hilbert space , IV . 4 .
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Contents
Preliminary Concepts | 1 |
B Topological Preliminaries | 10 |
Algebraic Preliminaries | 34 |
Copyright | |
31 other sections not shown
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algebra Amer analytic applied arbitrary assumed B-space Banach spaces bounded called clear closed compact operator complex condition Consequently constant contains continuous functions converges convex convex set Corollary countably additive defined DEFINITION denote dense determined differential dimensional disjoint domain element equation equivalent everywhere Exercise exists extension field finite follows formula function defined function f given Hence Hilbert space identity implies inequality integral interval Lebesgue Lemma limit linear functional linear operator linear space Math neighborhood norm operator operator topology problem projection PROOF properties proved range reflexive representation respect satisfies scalar seen semi-group separable sequence set function Show shown statement subset subspace sufficient Suppose Theorem theory topology u-measurable uniform uniformly unique unit sphere valued vector weak weakly compact zero