How do I find #lim_(x->oo)(3sin(x))/e^x# using power series?

2 Answers
Oct 19, 2014

To be honest, I would not use power series on this one since this is a perfect problem to demonstrate the application of Squeeze Theorem. Here is how:

We know

#-1 le sinx le 1#

#Rightarrow -3 le 3sinx le 3#

#Rightarrow -3/e^x le {3sinx}/e^x le 3/e^x#.

Since

#lim_{x to infty}(-3/e^x)=-3/infty=0#

and

#lim_{x to infty}3/e^x=3/infty=0#,

we conclude that

#lim_{x to infty}{3sinx}/e^x=0#

by Squeeze Theorem.


I hope that this was helpful.

Mar 11, 2017

The power series in question are:

  • #sin(x)=sum_(n=0)^oo(-1)^nx^(2n+1)/((2n+1)!)=x-x^3/(3!)+x^5/(5!)-x^7/(7!)+...#

  • #e^x=sum_(n=0)^oox^n/(n!)=1+x+x^2/(2!)+x^3/(3!)+x^4/(4!)+...#

So:

#lim_(xrarroo)(3sin(x))/e^x=(3(x-x^3/(3!)+x^5/(5!)-x^7/(7!)+...))/(1+x+x^2/(2!)+x^3/(3!)+x^4/(4!)+...)#

In the numerator, we see that #sin(x)# alternates and skips even powers of #x#. On the other hand, #e^x# is always increasing and skips no powers, so it is evident that #e^x# will rise much faster than #sin(x)#, and the limit is #0#.