Solve each nonlinear system of equations. Give all solutions, inc...

Question

Solve each nonlinear system of equations. Give all solutions, including those with nonreal complex components. See Examples 1–5.
x^2 - y = 0 
x + y = 2

Accepted Answer

Hey, everyone. Here we are asked to provide all solutions for the given nonlinear system of equations including non-real complex components. Here we are given two equations. The first equation is X squared minus four, Y is equal to zero. And the second given equation is X plus Y is equal to 24. Here we have four answer choice options, answer choices A through D, each of them being a solution set containing two different ordered pairs. So here to begin solving our given nonlinear system of equations, we can begin by selecting our second equation and solving it for Y. So recalling our second equation, we have X plus Y is equal to 24. And now solving for Y, we simply subtract X from both sides of the equation. And so we have Y is equal to 24 minus X. And so now with this new manipulated equation, we can utilize the substitution method by simply substituting in this equation which we solve for Y into our first given equation so that we can solve for X. So recalling our first given equation, we have X squared minus four Y is equal to zero. And now substituting in our new equation, we have X squared minus four times the quantity of 24 minus X is equal to zero. So now again, we want to solve four X. So we first need to distribute in this negative four. So we have X squared minus plus four. X is equal to zero. Now, to continue to try and solve for X, we now want to factor the left side of our equation. So factoring we have the quantity of X plus 12 times the quantity of X minus eight is equal to zero. And now recalling the zero factor property, we can take each individual set of parentheses and set their expressions equal to zero and solve for X. So starting with our first set of parentheses, we have the expression X plus 12 and we know from the zero factor property that we can set this expression equal to zero. And now just solving for X, we subtract 12 from both sides and we find that X is equal to negative 12. And so now we can repeat this with the other expression X minus eight. And so first we set this expression equal to zero. Now solving for X, we just add eight to both sides and we see X is also equal to eight. So now we have obtained two values of X. So we need to utilize these values so that we can solve for our values of Y. So if we recall from earlier, we have a manipulated equation where Y is equal to minus X. Now, we can just substitute in these values, we obtained four X into this equation. So we can directly solve four values of Y. So we can start with our first value of X where X is equal to negative 12. And so our equation becomes Y is equal to minus the quantity of negative 12. And so simplifying we have Y is equal to 24 plus 12. And now summing these values, we have Y is equal to 36. So here we have found that when X is equal to negative 12, that Y is equal to 36. And now we can repeat this for our other value of X where X is equal to eight. And so we have the equation Y is equal to 24 minus eight. And now just simplifying these terms here we see that Y is equal to 16. And so now we have also found that when X is equal to eight, that Y is equal to 16. So now we can summarize our findings by writing our solutions as a solution set containing two ordered pairs. And so here, our first ordered pair is negative 12 and 36 our other ordered pair is eight and 16. So with our summarized solutions here, we see that we are left with answer choice D where again we have the solution set of two ordered pairs. The first one is negative 12 and 36 the other is eight and 16. Thanks for watching. I hope you found this video helpful and I'll see you again next time.

Solve each nonlinear system of equations. Give all solutions, including those with nonreal complex components. See Examples 1–5. x^2 - y = 0 x + y = 2

Key Concepts

Nonlinear Equations

Systems of Equations

Complex Numbers

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