St. Petersburg Mathematical Journal, 19. cilt,1-494. sayfalarAmerican Mathematical Society, 2008 |
Kitabın içinden
91 sonuçtan 1-3 arası sonuçlar
Sayfa 340
... proved that H ( f ( x1 ) ( x ' ) ) = 0 for all ƒ € L1 ( R ) and all € Lh , ( R ” −1 ) . Hence , H0 by Theorem 3.5 and Lemma 3.2 . Now , suppose that the set contains no straight lines . We use induction on the dimension to prove that 2 ...
... proved that H ( f ( x1 ) ( x ' ) ) = 0 for all ƒ € L1 ( R ) and all € Lh , ( R ” −1 ) . Hence , H0 by Theorem 3.5 and Lemma 3.2 . Now , suppose that the set contains no straight lines . We use induction on the dimension to prove that 2 ...
Sayfa 346
... prove that 1 ) 2 ) , because the equivalence of 2 ) and 3 ) is obvious . To prove that 1 ) ⇒ 2 ) , suppose that condition 2 ) is not fulfilled . Then | A | > 0 , where R ” \ Ukɛz » ( E + k ) . The set A must be interpolating for the ...
... prove that 1 ) 2 ) , because the equivalence of 2 ) and 3 ) is obvious . To prove that 1 ) ⇒ 2 ) , suppose that condition 2 ) is not fulfilled . Then | A | > 0 , where R ” \ Ukɛz » ( E + k ) . The set A must be interpolating for the ...
Sayfa 401
... prove these inequalities later ; now we derive Claim I from them . In ( 4.1 ) , we choose a Banach space B of class Bfin and take the supremum over all FCS with card F < ∞ . Using ( 4.2 ) , we get Vfin ( S , M , B ) ≤ sup { \ ( F , M ) ...
... prove these inequalities later ; now we derive Claim I from them . In ( 4.1 ) , we choose a Banach space B of class Bfin and take the supremum over all FCS with card F < ∞ . Using ( 4.2 ) , we get Vfin ( S , M , B ) ≤ sup { \ ( F , M ) ...
İçindekiler
S Alesker Quaternionic plurisubharmonic functions and their applications | 1 |
S ArtsteinAvidan and V D Milman Using Rademacher permutations | 15 |
Burago S Ivanov and D Shoenthal Two counterexamples in low | 33 |
Telif Hakkı | |
9 diğer bölüm gösterilmiyor
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A₁ Algebra asdim assume asymptotic dimension Aut F automorphisms b₁ ball boundary at infinity bounded c₁ cdim Chevalley groups Co(Z commutative ring compact consider constant construct convex body convex sets Corollary cup product defined definition denote diam EEO(n elementary elements English transl EO(n equations estimate Euclidean exists finite Finsler metric function f geodesic geometric GL(n GO(n group G Hence homeomorphism hypdim hyper-Hermitian hyperbolic groups hyperbolic space implies inequality integer invariant isometric isomorphism K₁ Lemma log-concave log-concave function Math matrix matrix-valued function measure metric space nontrivial nonzero obtain open covering orthogonal group overgroups paper Petersburg plurisubharmonic functions polygonal line problem proof of Theorem Proposition prove quasi-isometric quaternionic random satisfies self-similar sequence solution subgroup subset subspace symmetric tensor valuations Theorem 1.1 topological transvection tubular neighborhood uniformly vector