How do you prove limit of #x^2-3x=-2# as #x->2# using the precise definition of a limit?

1 Answer
Jim H
Nov 13, 2016

Please see the explanation section below.

Explanation:

Given #epsilon > 0# choose #delta = min{1, epsilon/3}#. Note that #delta > 0#

For every #x# with #0 < abs(x-2) < delta#, we have

#abs(x-2) < 1#, so #-1 < x-2 < 1# and #1 < x < 3#.

Now #abs((x^2-3x)-(-2)) = abs(x^2-3x+2) = abs(x-2)abs(x-1)#

And if #abs(x-2) < delta# then #abs(x-2) < epsilon/3# and #abs(x-1) < 3#, so

So, if #abs(x+2) < delta#, then

#abs((x^2-3x)-(-2)) = abs(x+2)abs(x^2-2x+4)#

# < (epsilon/3)*(3) = epsilon#.

We have shown that for any positive #epsilon# there is a positive #delta# such that for any #x# with #0 < abs(x-2) < delta#, we have #abs((x^2-3x)-(-2)) < epsilon#.

By the definition of limit, #lim_(xrarr2)(x^2-3x) = -2#.

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