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d. (a) Use the definition of the derivative to prove c =0 and I = 1. dr da d

d. (a) Use the definition of the derivative to prove c =0 and I = 1. dr da d

Advanced Engineering Mathematics
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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(a) Use the definition of the derivative to prove C=0 and da T = 1. %3D (b) Use induction and the Product Rule to prove I = nI"-1 for all n E No- (c) Use the Quotient Rule to prove = na"-1 for all I ER\{0}, n E Z\ No. dr d (d) Use the Inverse Function Theorem to prove d.x 1 = =r/n-1 for all r E (0, 00), n E N. d. (e) Use the Chain Rule to prove m/n /m-1 for all x E (0, 00), m E Z, n E N. %D - dr tn (f) Use the fact that if {tn} is a sequence in R, then lim lim r to prove that dr = trt-1 for all r E (0, o), t E R \ Q.
Transcribed Image Text:(a) Use the definition of the derivative to prove C=0 and da T = 1. %3D (b) Use induction and the Product Rule to prove I = nI"-1 for all n E No- (c) Use the Quotient Rule to prove = na"-1 for all I ER\{0}, n E Z\ No. dr d (d) Use the Inverse Function Theorem to prove d.x 1 = =r/n-1 for all r E (0, 00), n E N. d. (e) Use the Chain Rule to prove m/n /m-1 for all x E (0, 00), m E Z, n E N. %D - dr tn (f) Use the fact that if {tn} is a sequence in R, then lim lim r to prove that dr = trt-1 for all r E (0, o), t E R \ Q.
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