Line 23: Line 23:
  
 
(3) Finally, what can be said about <math> f(x_0)\,</math>
 
(3) Finally, what can be said about <math> f(x_0)\,</math>
  and <math> g(y_0)\, </math> for any $x_0\in X $ and $y_0 \in Y$?
+
  and <math> g(y_0)\, </math> for any <math>x_0\in X </math> and <math>y_0 \in Y</math>?
  
  

Revision as of 09:08, 9 February 2010

To ask a new question, add a line and type in your question. You can use LaTeX to type math. Here is a link to a short LaTeX tutorial.


To answer a question, open the page for editing and start typing below the question...

go back to the Discussion Page


I am having trouble with exercise 2.4.10. I don't understand how I can prove what is being asked without using a specific range or function. Can anyone help with this?

Prof. Alekseenko: Perhaps one could start from looking at functions $ f(x)\, $ and $ g(y)\, $ closely.

Here is a hint: consider any point $ (x_0,y_0) \, $.

(1) What can be said about $ f(x_{0})\, $ and $ h(x_0,y_0) \, $?


(2) Similarly, what can be said about $ g(y_{0})\, $ and $ h(x_0,y_0)\, $?


(3) Finally, what can be said about $ f(x_0)\, $

and $  g(y_0)\,  $ for any $ x_0\in X  $ and $ y_0 \in Y $?


(4) How can this help to establish the desired inequality?


Can anybody fill in the detail?

Alumni Liaison

ECE462 Survivor

Seraj Dosenbach