If \(∫\frac{1}{x}\) \(√{\frac{1-x}{1+x}}\) dx = \(g(x) + c,g(1) = 0\) , then g \((\frac{1}{2})\)
is equal to
If \(∫\frac{1}{x}\) \(√{\frac{1-x}{1+x}}\) dx = \(g(x) + c,g(1) = 0\) , then g \((\frac{1}{2})\)
is equal to
\(log_e(\frac{√3-1}{√3+1})\)\(+\frac{π}{3}\)
\(log_e(\frac{√3+1}{√3-1})\)\(+\frac{π}{3}\)
\(log_e(\frac{√3+1}{√3-1})\)\(-\frac{π}{3}\)
\(\frac{1}{2}log_e(\frac{√3-1}{√3+1})-\)\(\frac{π}{6}\)
The Correct Option is A
Solution and Explanation
The correct answer is (A) : \(log_e(\frac{√3-1}{√3+1})\)\(+\frac{π}{3}\)
∵ \(∫\frac{1}{x}\) \(√{\frac{1-x}{1+x}}\) \(dx = g(x) + c\)
\(\int_1^{\frac{1}{2}}\frac{1}{x} \sqrt{\frac{1-x}{1+x}} \,dx = g\left(\frac{1}{2}\right) - g(1)\)
∴\( g(\frac{1}{2}) =\) \(\int_1^{\frac{1}{2}}\frac{1}{x} \sqrt{\frac{1-x}{1+x}} \,dx\)
\(cotx=cos2θ\)
= \(\int_0^{\frac{π}{6}} \frac{1}{cos2θ}.\frac{sinθ}{cosθ}(sinθ/cosθ ( -2sin2θ)dθ\)
= \(-\int_0^{\frac{π}{6}}\frac{4sin²θ}{cos2θ}dθ\)
= \(2\int_0^{\frac{π}{6}}\)\(\frac{(1 - 2sin²θ -1)}{cos2θ }\)\(dθ\)
= \(2 \int^{\frac{π}{6}}_0 \)\(( 1 - sec2θ ) dθ\)
=\( \frac{π}{3}\) \(- 2. \frac{1}{2} \)\([ In | sec2θ + tan2θ| ]^{\frac{π}{6}}_0\)
= \( \frac{π}{3}\) \(- [ In | 2 + √3 | - In1 ] \)
= \( \frac{π}{3}\) \(+ In ( \frac{1}{2 }+ √3 )\)
= \( \frac{π}{3}\) \(+ In | \frac{√3 - 1}{√3 + 1} |\)
Top Questions on integral
- The value of the integral \( \int_0^1 x^2 \, dx \) is:
Let \( f : (0, \infty) \to \mathbb{R} \) be a twice differentiable function. If for some \( a \neq 0 \), } \[ \int_0^a f(x) \, dx = f(a), \quad f(1) = 1, \quad f(16) = \frac{1}{8}, \quad \text{then } 16 - f^{-1}\left( \frac{1}{16} \right) \text{ is equal to:}\]
- Let $ f(x) $ be a positive function and $I_1 = \int_{-\frac{1}{2}}^1 2x \, f\left(2x(1-2x)\right) dx$ and $I_2 = \int_{-1}^2 f\left(x(1-x)\right) dx.$ Then the value of $\frac{I_2}{I_1}$ is equal to ____
- Evaluate the integral: \[ \int \frac{x^2 + 2x}{\sqrt{x^2 + 1}} \, dx \]
- Evaluate the integral: \[ \int \sqrt{x^2 + 3x} \, dx \]
Questions Asked in JEE Main exam
- Let $\vec{a}=2\hat{i}-\hat{j}-\hat{k}$, $\vec{b}=\hat{i}+3\hat{j}-\hat{k}$ and $\vec{c}=2\hat{i}+\hat{j}+3\hat{k}$. Let $\vec{v}$ be the vector in the plane of $\vec{a}$ and $\vec{b}$, such that the length of its projection on the vector $\vec{c}$ is $\dfrac{1}{\sqrt{14}}$. Then $|\vec{v}|$ is equal to
- JEE Main - 2026
- Vector Algebra
A substance 'X' (1.5 g) dissolved in 150 g of a solvent 'Y' (molar mass = 300 g mol$^{-1}$) led to an elevation of the boiling point by 0.5 K. The relative lowering in the vapour pressure of the solvent 'Y' is $____________ \(\times 10^{-2}\). (nearest integer)
[Given : $K_{b}$ of the solvent = 5.0 K kg mol$^{-1}$]
Assume the solution to be dilute and no association or dissociation of X takes place in solution.- JEE Main - 2026
- Solutions
- The wavelength of photon 'A' is 400 nm. The frequency of photon 'B' is \(10^{16}\,\text{s}^{-1}\). The wave number of photon 'C' is \(10^{5}\,\text{cm}^{-1}\). The correct order of energy of these photons is:
- JEE Main - 2026
- General Chemistry
- Given below are two statements: Statement I: The increasing order of boiling point of hydrogen halides is HCl<HBr<HI<HF. Statement II: The increasing order of melting point of hydrogen halides is HCl<HBr<HF<HI. In the light of the above statements, choose the correct answer from the options given below:
- JEE Main - 2026
- General Chemistry
Inductance of a coil with \(10^4\) turns is \(10\,\text{mH}\) and it is connected to a DC source of \(10\,\text{V}\) with internal resistance \(10\,\Omega\). The energy density in the inductor when the current reaches \( \left(\frac{1}{e}\right) \) of its maximum value is \[ \alpha \pi \times \frac{1}{e^2}\ \text{J m}^{-3}. \] The value of \( \alpha \) is _________.
\[ (\mu_0 = 4\pi \times 10^{-7}\ \text{TmA}^{-1}) \]- JEE Main - 2026
- Ray optics and optical instruments
Concepts Used:
Integral
The representation of the area of a region under a curve is called to be as integral. The actual value of an integral can be acquired (approximately) by drawing rectangles.
- The definite integral of a function can be shown as the area of the region bounded by its graph of the given function between two points in the line.
- The area of a region is found by splitting it into thin vertical rectangles and applying the lower and the upper limits, the area of the region is summarized.
- An integral of a function over an interval on which the integral is described.
Also, F(x) is known to be a Newton-Leibnitz integral or antiderivative or primitive of a function f(x) on an interval I.
F'(x) = f(x)
For every value of x = I.
Types of Integrals:
Integral calculus helps to resolve two major types of problems:
- The problem of getting a function if its derivative is given.
- The problem of getting the area bounded by the graph of a function under given situations.