Linear Operators, Part 1 |
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Page 36
A linear vector space , linear space , or vector space over a field Ø is an additive
group X together with an operation m : 0 X X X written as m ( a , x ) = ax , which
satisfy the following four conditions : ( i ) a ( x + y ) = axtay , ( ii ) ( a + b ) x = 0.
A linear vector space , linear space , or vector space over a field Ø is an additive
group X together with an operation m : 0 X X X written as m ( a , x ) = ax , which
satisfy the following four conditions : ( i ) a ( x + y ) = axtay , ( ii ) ( a + b ) x = 0.
Page 37
and if T ( x + y ) = Tx + Ty , T ( x ) = aTx for every a € 0 and every pair x , y of
vectors in the domain of T. Thus a linear ... If X is a vector space , if A CX , and if a
is a scalar , the symbol aA is written for the set of elements of the form ax with x in
A. If ...
and if T ( x + y ) = Tx + Ty , T ( x ) = aTx for every a € 0 and every pair x , y of
vectors in the domain of T. Thus a linear ... If X is a vector space , if A CX , and if a
is a scalar , the symbol aA is written for the set of elements of the form ax with x in
A. If ...
Page 250
For an arbitrary vector x in H the vector x— ( y * x ) / ( y * yılyı is in M so that ( x , y )
= y * x ( yı , y ) / y * yı = y * r , which proves the existence of the desired y . To see
that y is unique , let y ' be an element of H such that y * x = ( x , y ' ) for every x ...
For an arbitrary vector x in H the vector x— ( y * x ) / ( y * yılyı is in M so that ( x , y )
= y * x ( yı , y ) / y * yı = y * r , which proves the existence of the desired y . To see
that y is unique , let y ' be an element of H such that y * x = ( x , y ' ) for every x ...
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Contents
Preliminary Concepts | 1 |
The VitaliHahnSaks Theorem and Spaces of Measures | 7 |
B Topological Preliminaries | 10 |
Copyright | |
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Akad algebra Amer analytic applied arbitrary assumed B-space Banach Banach spaces bounded called clear closed complex Consequently contains converges convex Corollary defined DEFINITION denote dense determined differential dimensional disjoint domain element equation equivalent everywhere Exercise exists extension field finite follows function defined function f given Hence Hilbert space identity implies inequality integral interval isomorphism Lebesgue Lemma limit linear functional linear operator linear space Math measure space metric space neighborhood norm open set positive measure problem projection Proof properties proved range reflexive representation respect Russian satisfies scalar seen separable sequence set function Show shown sphere statement subset Suppose Theorem theory topological space topology u-measurable uniform uniformly unique unit valued vector weak weakly compact zero
Bibliographic information
| Title | Linear Operators, Part 1 Linear Operators, Jacob T. Schwartz Volume 7 of Mathematics, Pure, Applied Volume 7 of Pure and applied mathematics, ISSN 0079-8185 Volume 7 of Pure and applied mathematics. A series of texts and monographs |
| Authors | Nelson Dunford, Jacob T. Schwartz |
| Publisher | Interscience Publishers, 1958 |
| Original from | the University of California |
| Digitized | 26 Jun 2018 |
| Length | 2592 pages |
| Export Citation | BiBTeX EndNote RefMan |