For X and Y normed linear spaces, let {Tn} be a sequence in L(X,Y) such that Tn →T in L(X,Y)and let {un} be a sequence in X such that un → u in X.(a) Let ɛ = 1 in the definition of convergence of {Tn} to T in L(X,Y).||Tn|| < M, Vn E N, where M = sup{||T1||, ||T2||,||TN-1||, 1+ ||T||}, for some N E N.....,(b) for all n E N, ||Tn(un) – T(u)||y < ||Tn|| ||Uun – u||x + ||Tn – T|| - ||u||x.Use (a) and (b) to show that Tn(Um)→ T(u) in Y.

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Answered: For X and Y normed linear spaces, let…

Advanced Engineering Mathematics

10th Edition

ISBN:9780470458365

Author:Erwin Kreyszig

Publisher:Erwin Kreyszig

Chapter2: Second-order Linear Odes

Section: Chapter Questions

Problem 1RQ

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at S For the function f(x,y,z) = fy= 1₂= 3x forr 10 8z+1 h_he ne -9 8z+1 ne ON fyz = (9y-10x)8 (8z+1)² 72 (8z + 1)² 10x-9y 8z+1 1 find fx, fy, f₂, and fyz.
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