Evaluating an expression when x=infinity

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The expression -xe^{-x} approaches 0 as x approaches infinity, which is determined by finding the limit rather than evaluating at infinity. Infinity is not a number, so the correct approach is to consider the limit as x increases without bound. The expression can be rewritten as -x/e^x, allowing the application of L'Hôpital's rule to resolve the indeterminate form. After applying the rule, it is confirmed that the limit is indeed 0. Understanding the growth rates of e^x compared to x is crucial in this evaluation.
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can someone please tell me what is the value of the following expression when x=\infty:

-xe^{-x}

my guess is it is either -1 or 0 or -infinity...
 
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First, be careful of your terminology. You cannot "evaluate a function at x= infinity"- infinity is not a number. What you mean is "find the limit as x goes to infinity" (which, itself, is short for "as x gets larger and larger without bound").'

Since, as x "goes to infinity", e^{-x} goes to 0, this is an indeterminant of the form "infinity times 0". It can be put in the form "infinity over infinity" by writing it as -x/e^x and you can then use L'Hopital's rule.
 
infinity times 0 = 1 I thought?

I'm thinking this mainly due to the little I know Dirac Delta function..
 
after using l'hop's rule:

set f(x)=x g(x)=e^x
and f'(x)=1 g'(x)=e^x

I found f'/g'=1/infinity=0 which implies f/g=0..

Can you please confirm this is correct, as my skills with limits is very limited!
 
you should know that e^x grows very fast and the line y=x grows with slope 1 so it should be easy to picture what lim x--> infinity x/e^x is at x =1000 e^x is about 1.97 *10^434 so this limit is easy to guess
 
Yes, you are correct. But, in general, "infinity" times zero is not 1...it can be anything, which is why we do not allow it.
 

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