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- [Voiceover] Part c, let y equals f of x be the particular solution to the differential equation with the initial condition f of two is equal to three. Does f have a relative minimum, a relative maximum, or neither at x equals two? Justify your answer. Well, to think about whether we have a realtive minimum or relative maximum, we can say, well, what's the derivative at that point? If it's zero, then it's a good candidate that we're dealing with a, that it could be a relative minimum or maximum, if it's not zero, then it's neither. And then if it is zero, if we wanna figure out relative minimum or relative maximum, we can evaluate the sign of the second derivative. So let's just think about this. So, we want to evaluate f prime, we wanna figure out what f prime of, f prime of two is equal to. So, we know that f prime of x, f prime of x, which is the same thing as dy dx, is equal to two times x minus y. We saw that in the last problem. And so f prime of two, I'll write it this way, f prime of two is going to be equal to two times two, two times two minus whatever y is when x is equal to two. Well do we know what y is when x equals to two? Sure, they tell us right over here. Y is equal to f of x, so when x is equal to two, when x is equal to two, y is equal to three, so two times two minus three. And so this is going to be equal to four minus three is equal to one. And so since the derivative at two is not zero, this is not going to be a minimum, a relative minimum or a relative maximum, so you could say since, since f prime of two, f prime of two does not equal zero, this, we have a, f has, let me write it this way f has neither, neither minimum, or relative minimum I guess I could say, relative min or relative max at x equals two. Alright, let's do the next one. Find the values of the constants m and b, for which y equals m x plus b is a solution to the differential equation. Alright, this one is interesting. So let's, actually let's just write down everything we know before we even think that y equals m x plus b could be a solution to the differential equation. So, we know that, we know that dy over dx is equal to two x minus y, they told us that. We also know that the second derivative, the second derivative of y, with respect to x, is equal to two minus dy dx. We figured that out in part b of this problem. And then, we could also express this we saw that we could also write that as two minus two x plus y, if you just substitute, if you substitute this in for that. So it's two minus two x plus y. So let me write it that way. This is also equal to two minus two x plus y. So that's everything that we know before we even thought that maybe there's a solution of y equals m x plus b. So now let's start with y equals m x plus b. So if y is equal to m x plus b, y equals m x plus b, so this is the equation of a line, then dy dx is going to be equal to, well the derivative of this with respect to x is just m, the derivative of this with respect to x, this is constant this is not going to change with respect to x, it's just zero. And that makes sense, the rate of change of y with respect to x is the slope, is the slope of our line. So, can we use, and this is really all that we know, we could keep, actually we could go even further, we could take the second derivative here, the second derivative of y with respect to x. Well, that's going to be zero. The second derivative of a, of a linear function, well it's going to be zero, you see that here. So this is, this is all of the information that we have. We get this from the previous parts of the problem, and we get this just taking the first and second derivatives of, of y equals m x plus b. So given this, can we figure out, can we figure out what m and b are? Alright, so we could, if we said m is equal to two x minus y, that doesn't seem right. This one is a tricky one. Well, let's see, we know that the second derivative is going to be equal to zero. We know that this is going to be equal to zero for this particular solution. And we know dy dx is equal to m. We know this is m. And so there you have it, we have enough information to solve for m. We know that zero is equal to two minus m. So zero is equal to two minus m. And so we can add m to both sides and we get m is equal to, m is equal to two. So, that by itself, was quite useful. And then, what we could say, let's see, can we solve this further? Well we know that this, right over here, dy dx, this is m, this is m. And it's equal to two. So, we could say that two is equal to 2 x minus y. Two is equal to 2 x minus y. And then let's see, if we solve for y, add y to both sides, subtract two from both sides, we get y is equal to two x minus two. And there we have our whole solution. And so you have your m, right over there. That is m. And then we also have our b. This one was a tricky one. Anytime that you, you have to, ya know, do something like this and it doesn't just jump out at you, and if it wasn't obvious, it didn't jump out at me at first, when I looked at this problem, I said, well let me just write down everything that they told us, so they wrote this before, and then we say okay this is going to be a solution. And so let me see if I can somehow solve, so, let's see what I didn't use. I didn't use, I didn't use that. I did use this. I absolutely used that. I did use that, I did use that, and I did use that. So this was a little bit of a fun little puzzle where I just wrote down all the information they gave us and I tried to figure out, based on that, whether I could figure out m and m and b. And this is pretty neat, that this a solution two x minus two. If we go to our slope field above, it's not, it wouldn't have jumped out at me. But if you think about, if you think about so two x minus two, it's y intercept would be negative two like that, let me do this in a different color, and so the line would look something, would like something like this. The line would look something like this. And you can verify that any one of these points, at any one of these points, the slope, the slope is equal, the slope is equal to two. If we're at the point two comma two, well it's gonna be two times two minus two is two. One comma zero, two times one minus zero is two. Negative two comma, or sorry zero comma negative two well, zero minus negative two, that's two. So you see this is pretty neat, the slope is changing all around it, but this is this is a linear solution to that original differential equation, that was, that was pretty cool.