Download App

Indefinite Integrals — MATHS STD 12 Science — Question

Rajasthan BoardEnglish MediumSTD 12 ScienceMATHSIndefinite Integrals5 Marks
Question
Evaluate the following integrals:$\int\frac{(1-\text{x}^2)}{\text{x}(1-2\text{x})}\text{ dx}$

Answer

Let $\text{I}=\int\frac{1-\text{x}^2}{\text{x}(1-2\text{x})}\text{ dx}$ $=\int\frac{1-\text{x}^2}{\text{x}-2\text{x}^2}\text{ dx}$ $=\int\frac{1-\text{x}^2}{2\text{x}^2-\text{x}}\text{ dx}$ $=\int\bigg[\frac{1}{2}+\frac{\frac{\text{x}}{2}-1}{2\text{x}^2-\text{x}}\bigg]\text{dx}$ $\text{I}=\frac{1}{2}\text{x}+\int\frac{\frac{\text{x}}{2}-1}{2\text{x}^2-\text{x}}\text{ dx}+\text{C}_1\ ....(1)$ $\text{I}_1=\int\frac{2\text{x}+1}{\text{x}^2-\text{x}}\text{ dx}$ Let $\frac{\text{x}}{2}-1=\lambda\frac{\text{d}}{\text{dx}}\big(2\text{x}^2-\text{x}\big)+\mu$ $=\lambda(4\text{x}-1)+\mu$ $\frac{\text{x}}{2}-1=(4 \lambda)\text{x}-\lambda+\mu$Comparing the coefficients of like powers of x,
$\frac{1}{2}=4\lambda\Rightarrow\lambda=\frac{1}{8}$ $-\lambda+\mu=-1\Rightarrow-\Big(\frac{1}{8}\Big)+\mu=-1$ $\mu=-\frac{7}{8}$ So, $\text{I}_1=\int\frac{\frac{1}{8}(4\text{x}-1)-\frac{7}{8}}{2\text{x}^2-\text{x}}\text{ dx}$ $\text{I}=\frac{1}{8}\int\frac{4\text{x}-1}{2\text{x}^2-\text{x}}\text{ dx}-\frac{7}{8}\int\frac{1}{2\big(\text{x}^2-\frac{\text{x}}{2}\big)}\text{ dx}$ $\text{I}=\frac{1}{8}\int\frac{4\text{x}-1}{2\text{x}^2-\text{x}}\text{ dx}-\frac{7}{16}\int\frac{1}{\text{x}^2-2\text{x}\big(\frac{1}{4}\big)+\big(\frac{1}{4}\big)^2-\big(\frac{1}{4}\big)^2}\text{ dx}$ $\text{I}=\frac{1}{8}\int\frac{4\text{x}-1}{2\text{x}^2-\text{x}}\text{ dx}-\frac{7}{16}\int\frac{1}{\big(\text{x}-\frac{1}{4}\big)^2-\big(\frac{1}{4}\big)^2}\text{ dx}$ $\text{I}=\frac{1}{8}\log\big|2\text{x}^2+\text{x}\big|-\frac{7}{16}\times\frac{1}{2\big(\frac{1}{24}\big)}\log\bigg|\frac{\text{x}-\frac{1}{4}-\frac{1}{4}}{\text{x}-\frac{1}{4}+\frac{1}{4}}\bigg|+\text{C}_2$ $\Big[\text{since},\int\frac{1}{\text{x}^2-\text{a}^2}\text{ dx}=\frac{1}{2\text{a}}\log\Big|\frac{\text{x}-\text{a}}{\text{x}+\text{a}}\Big|+\text{C}\Big]$ $\text{I}=\frac{1}{8}\log|\text{x}|+\frac{1}{8}\log|2\text{x}-1|-\frac{7}{8}\log|1-2\text{x}|+\frac{7}{8}\log2+\frac{7}{8}\log|\text{x}|+\text{C}_2$ $\text{I}_1=\log\big|\text{x}\big|-\frac{3}{4}\log|1-2\text{x}|+\text{C}_3\ ....(2)$ $\Big[\text{Say},\text{C}_3=\text{C}_2+\frac{7}{8}\log2\Big]$ Using equation (1) and (2) $\text{I}=\frac{1}{2}\text{x}+\log|\text{x}|-\frac{3}{4}\log|1-2\text{x}|+\text{C}$

Need a full question paper?

Generate a complete, print-ready paper with questions like this in minutes — across 16+ boards, with answer keys.

Start Generating Free

Explore more

More "5 Marks Questions" from Indefinite IntegralsIndefinite Integrals — all question typesMATHS STD 12 Science question papersRajasthan Board STD 12 Science question papersRajasthan Board question paper generator

Similar questions

A company produces two types of goods, $A$ and $B,$ that require gold and silver. Each unit of type $A$ requires $3\ gm$ of silver and $1\ gm$ of gold while that of type $B$ requires $1\ gm$ of silver and $2\ gm$ of gold. The company can produce $9\ gm$ of silver and $8\ gm$ of gold. If each unit of type A brings a profit of $Rs. 40$ and that of type $B\ Rs. 50,$ find the number of units of each type that the company should produce to maximize the profit. What is the maximum profit $?$
Evaluate the following integrals:
$\int\limits^{\frac{\pi}{4}}_{-\frac{\pi}{4}}\sin^2\text{x dx}$
Prove the following results:
$2\sin^{-1}\frac{3}{5}-\tan^{-1}\frac{17}{31}=\frac{\pi}{4}$
If $\text{y}=\text{x}^\text{n}\{\text{a}\cos(\log\text{x})+\text{b}\sin(\log\text{x})\},$ prove that $\text{x}^2\frac{\text{d}^2\text{y}}{\text{dx}^2}+(1-2\text{n})\frac{\text{dy}}{\text{dx}}+(1+\text{n}^2)\text{y}=0.$
For each of the differential equations given in find the general solution: 
$\cos^2\text{x}\frac{\text{dy}}{\text{dx}}+\text{y}=\tan\text{x}\Big(0\leq\text{x}<\frac{\pi}{2}\Big)$
A manufacturer makes two types of toys A and B. Three machines are needed for this purpose and the time (in minutes) required for each toy on the machines is given below:
Types of Toys Machines
I II III
A 12 18 6
B 6 0 9
Each machine is available for a maximum of 6 hours per day. If the profit on each toy of type A is Rs. 7.50 and that on each toy of type B is Rs. 5, show that 15 toys of type A and 30 of type B should be manufactured in a day to get maximum profit.
Find the distance between the lines $ l_1$ and $l_2$ given by $\vec{\text{r}}=\hat{\text{i}}+2\hat{\text{j}}-4\hat{\text{k}}+\lambda\big(2\hat{\text{i}}+3\hat{\text{j}}+6\hat{\text{k}}\big)$ and, $\vec{\text{r}}=3\hat{\text{i}}+3\hat{\text{j}}-5\hat{\text{k}}+\mu\big(2\hat{\text{i}}+3\hat{\text{j}}+6\hat{\text{k}}\big)$
In a culture, the bacteria count is 100000. The number is increased by 10% in 2 hours. In how many hours will the count reach 200000, if the rate of growth of bacteria is proportional to the number present?
Differentiate the function $\left(x+\frac{1}{x}\right)^{x}+x^{\left(1+\frac{1}{x}\right)}$ w.r.t. x.
Find $\frac{\text{dy}}{\text{dx}},$ when
$\text{x}=\text{a}(\theta+\sin\theta)$ and $\text{y}=\text{a}(1-\cos\theta)$