Use the definitions given in Exercise 57 to prove the followin...

Question

Use the definitions given in Exercise 57 to prove the following infinite limits.

lim x→1^- 1 / 1 − x=∞

Accepted Answer

Welcome back, everyone. In this problem, determine the limit as X approaches 5 from the left of 2 divided by 5 minus X. Use the definition of infinite limits to find the correct answer. A says it's infinity. B negative infinity. C says it's 0, and D says it's 1. Now how are we going to use the definition of infinite limits to help us find the correct answer? What do we know about that definition? Well, recall, the definition tells us that for a limit, OK, as X approaches A, a value A from the left of F of X. It's equal to infinity if for every positive number in. For every positive number and. There exists a valley delta, OK. That's positive, such that. OK, FRX. Is greater than N. Whenever, OK, F of X is greater than N, whenever 5, well, in this case, A minus X is greater than 0 but less than delta. That's the definition for infinite limit. So if we can show that this condition is true, that there exists a value of delta greater than 0 such that F of X is greater than N wherever A minus X is greater than 0 but less than Delta, then we know that our limit will be equal to infinity. So let's see if we can try to find the definition for delta that can help us to prove that, OK? Now if we apply the definition to our problem, OK, for our inequality, this means that the limit, OK, as X approaches 5 from the left of 2 minus 5 X 2 divided by 5 minus X. For any or sorry for every. Positive or let's say any here. I know this is what we're trying to show. We're trying to show that for any. Positive number in. There exists. OK, a value of delta, that's positive. Such that. 2 divided by 5 minus X F of X is greater than N. sorry, not less than, greater than N. Whenever 5 minus X is greater than 0 but less than Delta. So this is what we're gonna try to show. So how can we do that? Well, let's start with our inequality. Who divided by 5 minus X is greater than N. Since X is approaching 5 from the left, that means X must be less than 5, and thus 5 minus X will be greater than 0, because 5 minus a value that's less than 5 is always going to give us a positive result. Thus, this means that 2 divided by 5 minus X will be positive. And since that's the case, OK, gives me We know that 2 divided by 5 minus X is positive and greater than n. Then that would mean that 5 minus X would be less than 2 divided by N, OK? Because since N is positive, we can also keep in mind that since N is positive, 2 divided by N is also positive, which means the inequality direction remains the same when dividing by a positive number. So now, if we go ahead and solve this for X, therefore, this would mean that X is going to be greater than 5 minus 2 divided by N. Since we have this, let's let delta, OK, be equal to 2 divided by N. OK. If we try to verify our condition. OK. Then if X minus 55 minus X is greater than 0 but less than delta, OK, then this would imply that X is going to be greater than 5 minus delta, OK? And if we substitute delta equals 2 divided by N, this means that X is going to be greater than 5 minus 2 divided by N. And thus this satisfies our inequality which ensures that 2 divided by 5 X is going to be greater than n. So no, this means that if we think about our definition of the limits for any positive number in. OK, for any positive number N, then we can choose that delta be equal to 2 divided by N. Thus, that means then. Whenever So write that out here. Whenever 5 minus X is greater than 0 but less than delta, OK, then 2 divided by 5 minus X is greater than N. We satisfy the definition of an infinite limit. Therefore, since the definition is satisfied, that means the limit as X approaches 5 from the left, OK, of 2 divided by 5 minus X F of X is going to be equal to positive infinity. Therefore, if we look back on the answer choices, that means it is the correct answer. Thanks a lot for watching everyone. I hope this video helped.

Use the definitions given in Exercise 57 to prove the following infinite limits.

lim x→1^- 1 / 1 − x=∞

Key Concepts

Infinite Limits

One-Sided Limits

Continuity and Discontinuity

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