Mister Exam
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- Improper integral
- Double Integral
- Triple Integral
- Curvilinear integral
- Derivative Step by Step
- Differential equations Step by Step
- Limits Step by Step
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How to use it?
- Integral of d{x}:
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Integral of (x^2-x+1)/(x^2+x+1)^2
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Integral of (-x^2)
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Integral of x/(1+sqrt(x))
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Integral of x/(1+3*x^2)
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Identical expressions
- one /(cos(two x)+(sin(x))^2)
- 1 divide by ( co sinus of e of (2x) plus ( sinus of (x)) squared )
- one divide by ( co sinus of e of (two x) plus ( sinus of (x)) squared )
- 1/(cos(2x)+(sin(x))2)
- 1/cos2x+sinx2
- 1/(cos(2x)+(sin(x))²)
- 1/(cos(2x)+(sin(x)) to the power of 2)
- 1/cos2x+sinx^2
- 1 divide by (cos(2x)+(sin(x))^2)
- 1/(cos(2x)+(sin(x))^2)dx
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Similar expressions
- 1/(cos(2x)-(sin(x))^2)
- 1/(cos(2x)+(sinx)^2)
Integral of 1/(cos(2x)+(sin(x))^2) dx
The solution
You have entered
[src]
1 / | | 1 | ------------------ dx | 2 | cos(2*x) + sin (x) | / 0
$$\int\limits_{0}^{1} \frac{1}{\sin^{2}{\left(x \right)} + \cos{\left(2 x \right)}}\, dx$$
Integral(1/(cos(2*x) + sin(x)^2), (x, 0, 1))
The answer
[src]
1 / | | 1 | ------------------ dx | 2 | sin (x) + cos(2*x) | / 0
$$\int\limits_{0}^{1} \frac{1}{\sin^{2}{\left(x \right)} + \cos{\left(2 x \right)}}\, dx$$
=
=
1 / | | 1 | ------------------ dx | 2 | sin (x) + cos(2*x) | / 0
$$\int\limits_{0}^{1} \frac{1}{\sin^{2}{\left(x \right)} + \cos{\left(2 x \right)}}\, dx$$
Integral(1/(sin(x)^2 + cos(2*x)), (x, 0, 1))
Use the examples entering the upper and lower limits of integration.