Find the critical points of the following functions on the giv...

Question

Find the critical points of the following functions on the given intervals. Identify the absolute maximum and absolute minimum values (if they exist).

ƒ(x) = x³ ln x on (0, ∞)

Accepted Answer

Below there. Today we're going to solve the following practice problem together. So first off, let us read the problem and highlight all the key pieces of information that we need to use in order to solve this problem. Calculate the critical points for the function p of X is equal to x the power of 5 multiplied by the natural log of X on the intervals infinity. Identify the absolute maximum and minimum values. Awesome. So it appears for this particular problem we're asked to determine for our first answer, which is the critical point or points for this function of PFX on this specific interval. That's our first answers. We're trying to figure out the critical point or points for this function at PFX within the specific interval. And then our 2nd and 3rd answers we're trying to solve for is we're trying to identify the absolute maximum and minimum values. Awesome. So now that we know that we're trying to solve for 3 separate answers, let us first focus our attention on solving for the critical points first. So as we should recall, In order to find the critical points, we must first take the derivative of PX. So when we do that, we will find that P of X, which this prime symbol denotes the first derivative of PF X, and P X is going to be equal to 5 multiplied by X to the power of 4, multiplied by the natural log of X plus x the power of 4. So now we need to set P X to 0, and when we do that, we will get 5 X to the power of 4 multiplied by the natural log of X plus X to the power of 4. So once again, we're taking our equation for PX and we're setting it equal to 0. Fantastic. So when we do that and when we simplify, we will find that when we simplify, it will be equal to x to the power of 4 multiplied by 5, multiplied by the natural log of X + 1, and this will give our critical point values of X is equal to 0 and X is equal to. 1 divided by the power of 1/5. Fantastic. So we need to neglect the critical point at X equals 0, as it does not lie within our given domain. So one of our critical point final answers is not going to be X is equal to 0. So that means our only critical point is going to be X is equal to 1 divided by E to the power of 1/5. Fantastic. So now, Our next step, as we should recall a note, we need to evaluate the function at our critical point, and when we do that, we will find that P of 1 divided by E to the power of 1/5. You will find that it's equal to, and once again we're plugging in a value of 1 divided by the power of 15th in for X into our original function of PX. So we'll say that P 1 divided by the power of 15th is equal to 1 divided by E of 1/5 of 5, multiplied by the natural log of 1 divided by E to the power of 15th. Which is going to be equal to -1 divided by 5 multiplied by E. So, therefore, without a doubt, the absolute minimum value is -1 divided by 5 multiplied by E. At 1 divided by the power of 1/5. Fantastic. And this is when X is equal to that value. So it's gonna be our abs once again, to reiterate, our absolute minimum value is going to be -1 divided by 5 multiplied by E, at X equals 1 divided by E to the power of 15th. Fantastic. So, with that said, to quickly recap our final answers, our critical point, which I'll denote as CP is going to be at X equals 1 divided by E to the power of 1 divided by 5. And our minimum, which once again our absolute minimum, which we'll call P min, and P min. Of once again 1 divided by the power of 1/5 is going to be equal to -1 divided by 5 multiplied by E. Awesome. So once again it's -1 divided by 5 multiplied by E. And for as for our maximum value, we do not have a P max value. So this absolute maximum point, we do not have one, so we could just simply say none. And that's it. Those are our final answers. Thank you so much for watching. We did it. So, this problem is very easy to solve for as long as you have an understanding of how to solve for the critical points and the maximum and minimum points. So we need to find the absolute maximum minimum values you need to be able to recall how to do that based on what your textbook has taught you. And that's it. Thank you so much for watching. Hopefully that helped, and I can't wait to see you in the next video. Bye.

Find the critical points of the following functions on the given intervals. Identify the absolute maximum and absolute minimum values (if they exist).
ƒ(x) = x³ ln x on (0, ∞)

Key Concepts

Critical Points

Absolute Maximum and Minimum

Natural Logarithm Function

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