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Integration help (1 Viewer)

blackops23

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Hi guys, how would you go about integrating these?

Q1. 1/(1+(sinx)^2)

Q2. ((sinx)^2)/(1+(sinx)^2)

Q3. cosx/(1+(sinx)^2)

Any hints or tips that do NOT involve the t-formula would be extremely helpful :)
 

stampede

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q1 i cant be bothered figuring out, some1 else will



q2 change to :

then simplify that to

then do it from q1


q3 let u = sinx
 

blackops23

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Ok, problem, I actually modified and simplified the problem just to get some hints into how I'd solve my question,

the real question was:

INTEGRATE: 1/(3cos^2 x + 4sin^2 x) 0(<)x(<)pi/2

which = INT 1/(3+sin^2 x) 0(<)x(<)pi/2

Following deterministic's advice:

= INT (sec^2 x)/(3sec^2 x + tan^2 x) 0(<)x(<)pi/2

= INT (sec^2 x)/(3 + 4tan^2 x) 0(<)x(<)pi/2

Now if u=tan(x), what will be the domain? I mean tan (pi/2) is undefined...

Anyother ways to do this?

Thanks, appreciate the help
 

muzeikchun852

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Ok, problem, I actually modified and simplified the problem just to get some hints into how I'd solve my question,

the real question was:

INTEGRATE: 1/(3cos^2 x + 4sin^2 x) 0(<)x(<)pi/2

which = INT 1/(3+sin^2 x) 0(<)x(<)pi/2

Following deterministic's advice:

= INT (sec^2 x)/(3sec^2 x + tan^2 x) 0(<)x(<)pi/2

= INT (sec^2 x)/(3 + 4tan^2 x) 0(<)x(<)pi/2

Now if u=tan(x), what will be the domain? I mean tan (pi/2) is undefined...

Anyother ways to do this?

Thanks, appreciate the help
im not sure whether im right but hopefully it helps.
 

deterministic

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Upper bound would be infinity

Note
So the result should be:

Someone else can confirm this.
 
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blackops23

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Sorry, how would the upper bound be infinity?

I mean u=tan(x), so when x=pi/2, u=undefined.... isn't it?

I mean its not u=inverse tan x, so inverse tan (pi/2) = infinity...?

Can someone please offer an explanation?

Thanks
 

Hermes1

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Sorry, how would the upper bound be infinity?

I mean u=tan(x), so when x=pi/2, u=undefined.... isn't it?

I mean its not u=inverse tan x, so inverse tan (pi/2) = infinity...?

Can someone please offer an explanation?

Thanks
you let u = tanx

on the graph of y = tan x
as x approaches pi/2
tanx approaches infinity

therefore you let your upper bound limit be infinity
when you solve the integral
you get tan inverse of infinity, now on the graph of tan inverse x, as x approaches infinity it approaches pi/2

therefore you get from deterministic's answer as x approaches infinity
area under curve approaches 2/4root3 pi/2
but because infinity dominates you just write the answer
 

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