What is the general solution of the differential equation y' - (2xy)/(x^2+1) = 1?

1 Answer
Steve M
Sep 27, 2017

y = (x^2+1) arctan(x) + C(x^2+1)

Explanation:

We have:

y' - (2xy)/(x^2+1) = 1 ..... [A}

We can use an integrating factor when we have a First Order Linear non-homogeneous Ordinary Differential Equation of the form;

dy/dx + P(x)y=Q(x)

As the equation is already in this form, then the integrating factor is given by;

I = e^(int P(x) dx)
\ \ = exp(int \ -(2x)/(x^2+1) \ dx)
\ \ = exp(- int \ (2x)/(x^2+1) \ dx)
\ \ = exp( - ln(x^2+1)
\ \ = exp( ln (1/(x^2+1) ) )
\ \ = 1/(x^2+1)

And if we multiply the DE [A] by this Integrating Factor, I, we will have a perfect product differential;

(1/(x^2+1)) \ y' - (1/(x^2+1)) (2xy)/(x^2+1) = (1/(x^2+1)) 1

:. d/dx( (1/(x^2+1)) \ y ) = 1/(x^2+1)

Which we can directly integrate to get:

(y)/(x^2+1) = int \ 1/(x^2+1) \ dx

The RHS is a standard integral, so integrating we get:

(y)/(x^2+1) = arctan(x) + C

Leading to the General Solution:

y = (x^2+1) arctan(x) + C(x^2+1)

Related questions
See all questions in Solving Separable Differential Equations
Impact of this question
1852 views around the world
You can reuse this answer
Creative Commons License