Integrate tan(x)sec^2(x)e^tan(x)
This is something that I have to integrate to solve: cos^2(x) dy/dx + y = tan(x)
I divided by cos^2(x) on both sides and ended up with:
dy/dx + y*sec^2(x) = tan(x)sec^2(x)
Now I used the integrating factor:
h(x) = e^integral(sec^2(x)) = e^tan(x)
Then multiply by h(x) on both sides:
dy/dx*e^tan(x) + y*sec^2(x)e^tan(x) = tan(x)sec^2(x)e^tan(x)
Now simplifying it:
d/dx(e^tan(x)*y) = integral(tan(x)sec^2(x)e^tan(x))
This is where I don't understand how to integrate. I tried parts, but it doesn't seem like I'm going anywhere with it, because the power of tan just increases.
P.S: Can someone link me where to learn to type in Latex?
This is something that I have to integrate to solve: cos^2(x) dy/dx + y = tan(x)
I divided by cos^2(x) on both sides and ended up with:
dy/dx + y*sec^2(x) = tan(x)sec^2(x)
Now I used the integrating factor:
h(x) = e^integral(sec^2(x)) = e^tan(x)
Then multiply by h(x) on both sides:
dy/dx*e^tan(x) + y*sec^2(x)e^tan(x) = tan(x)sec^2(x)e^tan(x)
Now simplifying it:
d/dx(e^tan(x)*y) = integral(tan(x)sec^2(x)e^tan(x))
This is where I don't understand how to integrate. I tried parts, but it doesn't seem like I'm going anywhere with it, because the power of tan just increases.
P.S: Can someone link me where to learn to type in Latex?
Last edited by a moderator: