Answer: Solving Integral of sin2x/1+sin²x dx

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SUMMARY

The integral of sin(2x)/(1+sin²(x)) dx can be solved using the substitution method. By applying the trigonometric identity sin(2x) = 2sin(x)cos(x) and letting u = 1 + sin²(x), the integral simplifies to ∫(1/u) du, resulting in the final answer of ln(1 + sin²(x)) + C. This method highlights the effectiveness of u-substitution in solving trigonometric integrals.

PREREQUISITES
  • Understanding of trigonometric identities, specifically sin(2x) = 2sin(x)cos(x)
  • Familiarity with u-substitution in integral calculus
  • Knowledge of logarithmic functions and their properties
  • Basic skills in manipulating integrals involving trigonometric functions
NEXT STEPS
  • Learn advanced techniques in integral calculus, such as integration by parts
  • Study the application of trigonometric identities in calculus
  • Explore the use of definite integrals with trigonometric functions
  • Investigate other substitution methods for solving complex integrals
USEFUL FOR

Students and educators in mathematics, particularly those focusing on calculus and integral techniques, as well as anyone looking to enhance their problem-solving skills in trigonometric integrals.

Cradle_of_Knowledge
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Hi,

I don't know where is to place this thread. Please can you solve the following integeration problem.
(Note: sign of integeration is replaced by "S").

S sin2x/1+sin²x dx

the answer in the book is "ln(1+sin²x)+c"
 
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rewrite the numerator using the trig identity sin(2x) = 2 sin(x)cos(x)
then look for a nice substitution.
 
Could you explain your answer!
 
\int \frac{\sin 2x}{1+sin^2 x}\,dx

Put u = 1 + sin^2 x. Then:

du = 2 \sin x \cos x\,dx = \sin 2x\,dx

So, your integral becomes:

\int \frac{1}{u}\,du = \ln u + c = \ln (1 + \sin^2 x) + c
 
We can do the following:

sin(2x) = 2 sin(x)cos(x)

This can be placed in for sin(2x), giving us:

\frac{2sin(x)cos(x)}{1 + sin^2(x)}

Now we make a u-substitution:

u= 1+ sin^2 (x)

So

du = 2sin(x)cos(x)dx

and we can replace the integral as such:

\int \frac{1}{u}du

Now this is simply 1/u which equals ln (u)

so the anwser is ln(u), where u is equal to what we previously stated:

ln(1+sin^2(x))+C

where C is the constant of integration.

I hope that helps you out.

Cheers,

Cyrus

Edit: Damn, james beat me to it!GRRRRRRRRRRRRRRRRR :smile:
 
Last edited by a moderator:
Doh! Don't you hate it when that happens!
 
But it's never a wasted post. Seeing two ways of doing it, even though they're essentially the same, are always better then just one.
 
quasar987 said:
But it's never a wasted post. Seeing two ways of doing it, even though they're essentially the same, are always better then just one.


I agree with you totally on this. I always found it comforting having more than one way to work a problem. [/color]
 
Can you solve this too
S (sinx-cos)² dx

Answer:- x+sin2x/2 +c
 
  • #10
Expand it out, and solve the integral, its not hard once you expand it. You will have a sin squared term, plus a cos squared term, which add up to one, plus a -2sinxcosx term. And if you notice, you can use the trig identity from your first question.
 
  • #11
Cradle_of_Knowledge said:
Hi,

I don't know where is to place this thread. Please can you solve the following integeration problem.
(Note: sign of integeration is replaced by "S").

S sin2x/1+sin²x dx

the answer in the book is "ln(1+sin²x)+c"

1) sin2x=2sinxcosx

2) u=sinx => du=cosx dx

the intergral come:

2 * intergral{ u/(1+u^2) du}

make substitution as again.

this time let w= 1+u^2 => dw= 2u du

blah blah...
 

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