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*Peter: as far as your question about the Lebesgue Dom. Conv. Thm generalization, you can do it with convergence in measure, see Royden, problem 21 of Chapter 4.
 
*Peter: as far as your question about the Lebesgue Dom. Conv. Thm generalization, you can do it with convergence in measure, see Royden, problem 21 of Chapter 4.
 
-Coach
 
-Coach
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[[8.5_OldKiwi|#5 Solution]]

Revision as of 18:21, 14 July 2008

Click here for problem set 8


Questions from class:

  • Ben Ward: Royden Chapter 5, sect. 4, Corollary 15 gives f is absolutely continuous iff its the indef. integral of its derivative.
  • Peter: as far as your question about the Lebesgue Dom. Conv. Thm generalization, you can do it with convergence in measure, see Royden, problem 21 of Chapter 4.

-Coach

#5 Solution

Alumni Liaison

Correspondence Chess Grandmaster and Purdue Alumni

Prof. Dan Fleetwood