Use formal definitions to prove the limit statements in Exerci...

Question

Use formal definitions to prove the limit statements in Exercises 93–96.

lim x → 0 (−1 / x²) = −∞

Accepted Answer

Hello. In this video, we are going to be proving the given limit by choosing the correct value for delta. We are told that the limit, as X approaches 0 of 1 divided by X2 is equal to infinity. So our goal for this problem is to prove that the limit for this function is equal to infinity. In order to do this, we are going to use a special version of the Epsilon Delta inequalities. So, notice that the limit is equal to positive infinity. The epsilon-delta definition for a limit of a function that is equal to infinity is that for every positive inequality X minus A, which is less than Delta, there exists a function F of X, that is greater than some integer capital M. So, in order to solve for the value of delta that we want, that makes this limit true, we are going to start by bounding our function above this value of M. Now our function given to us. Is 1 divided by X squared. So, for this inequality, we will have 1 divided by X squared is greater than capital M. What we want to do now is we want to isolate X to one side of the inequality. We will go ahead and multiply X to X2 to both sides of the inequality, leaving us with 1 is greater than M multiplied by X2. If we divide M to both sides of the inequality, we get 1 divided by capital M is greater than X2. And if I reorder the inequality, I can also write X squared is less than 1 divided by M. Now what we want to do is we want to take the square root of both sides of the inequality. That is going to leave us with -1 divided by the square root of M, which is less than X, which is less than 1 divided by the square root of M. and this can be further simplified. To be the absolute value of X. is less than 1 divided by the square root of m. So this is going to be the simplified version of our X inequality. And now what we want to do is we want to show that Absolute value of X is going to be less than some value of delta. So we will go ahead and use our delta inequality now. So our delta inequality is X minus A is less than Delta, but what exactly is A in this case? Well, A is going to be the value of the limit that X is approaching, and since X is approaching 0 in this case, the value that we are going to plug in for A is going to be 0. So we have absolute value of X minus 0 is less than Delta, and that is going to simplify to be the absolute value of X is less than Delta. Now there is one thing to notice here. The delta inequality matches the M inequality. We have the value of absolute value of X is both less than delta and 1 divided by the square root of M. Since this value of absolute value of X is less than both of these values, we can assume that the value of delta is going to equal to 1 divided by the square root of M, and this is going to be the value of M or the value of delta that proves that the given limit is equal to infinity. So I hope this video helps you in understanding on how to approach this problem, and I will go ahead and see you all in the next video.

Use formal definitions to prove the limit statements in Exercises 93–96.

lim x → 0 (−1 / x²) = −∞

Key Concepts

Limit Definition

Behavior of Rational Functions

Infinity in Limits

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