A challenging second derivative Find d²y/dx², where √y+xy=1.

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Hello. In this video, we are going to be determining the second derivative D Z divided by DT2 for the equation square root of Z plus T Z equal to 2. So, how do we start to find the derivative D2 Z divided by DT2? In order to start this derivative, we first need to determine the dependent variable of the derivative. That variable is located on the bottom of the derivative, which is going to be the variable T. So what this problem is asking us to do is find the second derivative of the equation with respect to T. The equation given to us is square root of Z plus T multiplied by Z equal to 2. We are going to start this problem by taking the first derivative. With respect to tea. That is going to give us 1/ Z raise to the power of negative 12 through the power rule and through implicit differentiation, because we are taking a derivative of Z with respect to T, we get a D Z DT term. Then, in order to take the derivative of TZ, we have to use the product rule. That is going to be T multiplied by the derivative of Z, which is one through the power rule, but then we will generate a D ZDT term through implicit differentiation. Then we will add Z multiplied by the derivative of T, which is 1. And that will equal to the derivative of 2 with respect to T, which is going to be zero, because the derivative of a constant is always 0. Now we will simplify the left hand side. We can rewrite the first term as 1 divided by 2 square root of Z multiplied by D ZDT. Then we will add TD ZDT. And add Z multiplied by 1, which is Z, and this is equal to 0. What we want to do now is we want to solve for the derivative DZDT. In order to do this, we will first need to move Z to the right hand side. We will subtract both sides of this equation by Z, allowing us to rewrite the derivative as one divided by 2 square root of Z, multiplied by DZDT. Plus T multiplied by DZDT equal to negative Z. Since both of the terms on the left-hand side of the equation have a factor of DZDT we can factor a DZDT from the left-hand side of the equation. That will give us DZDT multiplied by the quantity, 1 divided by 2 square root of Z. Plust Equal to nec. In order to solve for DZDT, we will divide both sides of the equation by 1 divided by 2 square root of Z plus T. That will give us the derivative D Z D T equal to negative Z divided by 1 divided by 2 square root of Z plus T. And by simplifying the complex fraction, the simplest form of this derivative will be D Z D T equal to negative 2 Z square root of Z. Divided by 1 + 2 T square root of Z. This is going to be the first derivative with respect to tea. Now, in order to find D2 Z divided by DT2, the second derivative with respect to T, we will go ahead and take the derivative of this function with respect to T. In order to take the derivative, we will go ahead and use the quotient rule. That is going to give us D2 Z divided by DT2. Equal To the lengthy quantity negative. Quantity 1 + 2 T square root of Z. Multiplied by 3 square root of Z and through implicit differentiation, we get D ZDT. Minus the quantity 2 Z square root of Z. Multiplied by 2 square roots of Z plus T divided by square root of Z, multiplied by D Z D T. And this will all be divided by the quantity 1 plus 2 T square root of Z quantity squared. So we have this very lengthy derivative that we need to simplify, but notice that this derivative has DZDT terms within it. In order to eliminate these DZDD terms, what we can do is replace these DZDD terms by the first derivative we solve for. That is going to allow us to rewrite the overall derivative as negative quantity 1 + 2 T square root of Z. Multiplied by 3 square root of Z, multiplied by the replacement of DZDT, which is negative to Z square root of Z, divided by 1 + 2 T square root of Z. Then we will subtract 2 Z square root of Z. Multiplied by 2 square root of Z plus T divided by square root of Z, multiplied by the replacement of DZDT which is -2 Z square root of Z. All divided by 1 + 2 T square root of Z. And again, this is all divided by one. All divided by 1 plus 2 T square root of Z. Quantity squared. So, this is quite a lot to keep track of, but what we will go ahead and do is we will go ahead and simplify the 1st and 2nd term of the numerator. By simplifying the 1st and 2nd term of the numerator and distributing in this negative sign, we can simplify the derivative to be. One Plus 2 T square root of Z multiplied by 6 Z 2 divided by 1 + 2 T square root of Z. Plus The quantity 2 z square root of Z. Multiplied by the quantity 2 square root of z. Multiplied by 1 + 2 T square root of Z. Minus 2 T Z divided by 1 plus 2 T square root of Z. And again this is all divided by the quantity. 1 + 2 T square root of Z quantity squared. By further simplifying the complex fraction, we can simplify the overall second derivative to be 10 Z 2 multiplied by 1 + 2 T square root of Z. Minus 4 TZ 2 square root of Z. All divided by the quantity 1 plus 2 T square root of z cubed. And this will further simplify to give us 2 Z squared multiplied by 5 plus 8 T square root of Z. All divided by the quantity 1 + 2 t square root of z quantity cubed. And this is going to be the 2nd derivative. Of the given function So I hope this video helps you in understanding on how to get the second derivative, and I will go ahead and see you all in the next video.

A challenging second derivative Find d²y/dx², where √y+xy=1.

Key Concepts

Implicit Differentiation

Second Derivative

Chain Rule

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