Gotenks99
Answered

At Westonci.ca, we connect you with the best answers from a community of experienced and knowledgeable individuals. Get immediate and reliable solutions to your questions from a knowledgeable community of professionals on our platform. Experience the convenience of finding accurate answers to your questions from knowledgeable experts on our platform.

Consider the differential equation
[tex]y' = {x}^{2} (1 + {y}^{2} ).[/tex]
Which of the following are solutions:

[tex]y(x) = {x}^{2} + 3[/tex]

[tex]y(x) = tan( \frac{x {}^{3} }{3} + 2).[/tex]

[tex]y(x) = \sqrt{ {x}^{2} + 1 } .[/tex]

That is: do not use the method of integrating factors to solve. Just
check by plugging in.​

NO SPAM OR RANDOM LINKS!!!

Sagot :

LammettHash

The first solution is quadratic, so its derivative y' on the left side is linear. But the right side would be a polynomial of degree greater than 1, so this is not the correct choice.

The third solution has a similar issue. The derivative of √(x² + 1) will be another expression involving √(x² + 1) on the left side, yet on the right we have y² = x² + 1, so that the entire right side is a polynomial. But polynomials are free of rational powers, so this solution can't work.

This leaves us with the second choice. Recall that

1 + tan²(x) = sec²(x)

and the derivative of tangent,

(tan(x))' = sec²(x)

Also notice that the ODE contains 1 + y². Now, if y = tan(x³/3 + 2), then

y' = sec²(x³/3 + 2) • x²

and substituting y and y' into the ODE gives

sec²(x³/3 + 2) • x² = x² (1 + tan²(x³/3 + 2))

x² sec²(x³/3 + 2) = x² sec²(x³/3 + 2)

which is an identity.

So the solution is y = tan(x³/3 + 2).

7142ja99

Answer: For this problem I used the separation method instead of plugging in each one. I thought this would be easiereasier.to

Step-by-step explanation:

View image 7142ja99
Thanks for using our service. We're always here to provide accurate and up-to-date answers to all your queries. We hope our answers were useful. Return anytime for more information and answers to any other questions you have. Get the answers you need at Westonci.ca. Stay informed by returning for our latest expert advice.