**Q: Find the one-sided limit (if it exists):**

**lim**_{x→-1– }(x+1)/(x^{4}-1)

A: So we need to find the limit of this function (x+1)/(x^{4}-1) as x approaches -1 from the left. Remember, from the left means as x gets closer and closer to -1, but is still smaller.

The concept: What is happening to this function as x = -2, x = -1.5, x = -1.1, x = -1.0001, etc…

We test first and plug -1 into the function: (-1+1)/((-1)^{4}-1) = 0/0

*Whenever you get 0/0, that is your clue that maybe you need to do “more work” before just plugging in or jumping to conclusions.*

So, let’s try “more work” — usually that means simplifying. I see that the denominator can factor. We have:

(x+1) / (x^{4}-1) = (x+1) / [(x^{2}-1)(x^{2}+1)]

Let’s keep factoring the denominator:

(x+1) / [(x-1)(x+1)(x^{2}+1)]

Now, it appears there is a “removable hole” in the function. This means, we can remove this hole by reducing the matching term in the numerator with the matching term in the denominator:

~~(x+1)~~ / [(x-1)~~(x+1)~~(x^{2}+1)]

= 1 / [(x-1)(x^{2}+1)]

Notice that hole exists when x = -1 (and it was removable! This is good news for us since we are concerned with the nature of the function as x approaches -1)

Continue reading One-sided Limit Example

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