Aspire's Library

A Place for Latest Exam wise Questions, Videos, Previous Year Papers,
Study Stuff for MCA Examinations
  • Jamia Millia Islamia MCA
    Previous Year Questions

Jamia Millia Islamia MCA Previous Year Questions (PYQs)

Jamia Millia Islamia MCA Indefinite Integration PYQ

Jamia Millia Islamia MCA PYQ
The integral of $ \cos x $ is:





Go to Discussion
Jamia Millia Islamia MCA Previous Year PYQ Jamia Millia Islamia MCA JAMIA MILLIA ISLAMIA MCA 2025 PYQ

Solution

Integral of $ \cos x $

$ \int \cos x , dx $

Since
$ \frac{d}{dx} (\sin x) = \cos x $

$ \int \cos x , dx = \sin x + C $
Jamia Millia Islamia MCA PYQ
Find the value of $\displaystyle \int \dfrac{x,dx}{\sqrt{x^2 + 4}}$





Go to Discussion
Jamia Millia Islamia MCA Previous Year PYQ Jamia Millia Islamia MCA JAMIA MILLIA ISLAMIA MCA 2018 PYQ

Solution

Let $x = 2\tan\theta$, $dx = 2\sec^2\theta,d\theta$ $\Rightarrow I = \int \dfrac{2\tan\theta \cdot 2\sec^2\theta}{2\sec\theta}d\theta = 2\int \tan\theta\sec\theta,d\theta = 2\sec\theta + C = \dfrac{1}{2}\sqrt{x^2+4}+C$ Hence equivalent to $\dfrac{1}{4}\sec^{-1}\left(\dfrac{x}{2}\right)$
Jamia Millia Islamia MCA PYQ
$\displaystyle \int \dfrac{\cos 2x - \cos 2\theta}{\cos x - \cos \theta}\, dx$ is equal to:





Go to Discussion
Jamia Millia Islamia MCA Previous Year PYQ Jamia Millia Islamia MCA JAMIA MILLIA ISLAMIA MCA 2021 PYQ

Solution

$\cos A - \cos B = -2\sin\dfrac{A+B}{2}\sin\dfrac{A-B}{2}$ $\Rightarrow \cos 2x - \cos 2\theta = -2\sin(x+\theta)\sin(x-\theta)$ and $\cos x - \cos\theta = -2\sin\dfrac{x+\theta}{2}\sin\dfrac{x-\theta}{2}$ So, $\displaystyle \dfrac{\cos 2x - \cos 2\theta}{\cos x - \cos \theta} = \dfrac{\sin(x+\theta)\sin(x-\theta)}{\sin\dfrac{x+\theta}{2}\sin\dfrac{x-\theta}{2}} = 4\cos\dfrac{x+\theta}{2}\cos\dfrac{x-\theta}{2} = 2(\cos x + \cos\theta)$ Hence, $\displaystyle \int \dfrac{\cos 2x - \cos 2\theta}{\cos x - \cos \theta},dx = \int 2(\cos x + \cos\theta),dx = 2\sin x + 2x\cos\theta + C$ $\boxed{\text{Answer: (A) }2(\sin x + x\cos\theta) + C}$
Jamia Millia Islamia MCA PYQ
Let the equation of a curve passing through $(0,1)$ be $y=\displaystyle\int x^{2}e^{x^{3}}\,dx$. If the curve is written as $x=f(y)$, then $f(y)$ is –





Go to Discussion
Jamia Millia Islamia MCA Previous Year PYQ Jamia Millia Islamia MCA JAMIA MILLIA ISLAMIA MCA 2023 PYQ

Solution

Solution: Let $t=x^3 \Rightarrow dt=3x^2dx$, so $y=\dfrac{1}{3}e^{x^3}+C$. Using $(0,1)$: $1=\dfrac{1}{3}+C \Rightarrow C=\dfrac{2}{3}$. Hence $3y-2=e^{x^3} \Rightarrow x^3=\log_e(3y-2)$, so $x=\sqrt[3]{\log_e(3y-2)}$.
Jamia Millia Islamia MCA PYQ
$\displaystyle \int \frac{dx}{x\log x\;\log(\log x)}$ is equal to …





Go to Discussion
Jamia Millia Islamia MCA Previous Year PYQ Jamia Millia Islamia MCA JAMIA MCA 2017 PYQ

Solution

Put $t=\log x$, then $dt=\frac{dx}{x}$; next $u=\log t$, $du=\frac{dt}{t}$. Integral becomes $\int \frac{du}{u}=\log u=\log(\log(\log x))+C$.
Jamia Millia Islamia MCA PYQ
$\displaystyle \int x^{x}(1+\log x)\,dx$ is equal to …





Go to Discussion
Jamia Millia Islamia MCA Previous Year PYQ Jamia Millia Islamia MCA JAMIA MCA 2017 PYQ

Solution

$\dfrac{d}{dx}\big(x^{x}\big)=x^{x}(1+\log x)$ (log = natural log). Hence integral $=x^{x}+C$.
Jamia Millia Islamia MCA PYQ
$\displaystyle \int \sqrt{x}e^{\sqrt{x}}dx$ is equal to …





Go to Discussion
Jamia Millia Islamia MCA Previous Year PYQ Jamia Millia Islamia MCA JAMIA MCA 2016 PYQ

Solution

Let $t=\sqrt{x}$, $dx=2t\,dt$. Then $\int 2t^{2}e^{t}dt=2e^{t}(t^{2}-2t+2)+C$. Substitute $t=\sqrt{x}$ ⇒ $(2x-4\sqrt{x}+4)e^{\sqrt{x}}+C$.
Jamia Millia Islamia MCA PYQ
$\displaystyle \int x^{2}\sin(x^{3}),dx =$





Go to Discussion
Jamia Millia Islamia MCA Previous Year PYQ Jamia Millia Islamia MCA JAMIA MILLIA ISLAMIA MCA 2024 PYQ

Solution

Let $u=x^{3}\Rightarrow du=3x^{2}dx\Rightarrow x^{2}dx=\tfrac{1}{3}du$. $\int x^{2}\sin(x^{3})dx=\tfrac13\int\sin u,du=-\tfrac13\cos x+C.$
Jamia Millia Islamia MCA PYQ
Value of $\displaystyle \int e^{x^2} \left( \frac{1}{x} - \frac{1}{2x^2} \right) dx$ is:





Go to Discussion
Jamia Millia Islamia MCA Previous Year PYQ Jamia Millia Islamia MCA JAMIA MILLIA ISLAMIA MCA 2019 PYQ

Solution

Let $I = \int e^{x^2}\left(\frac{1}{x} - \frac{1}{2x^2}\right)dx$. Differentiate $e^{x^2}/x$: $\dfrac{d}{dx}\left(\dfrac{e^{x^2}}{x}\right) = e^{x^2}\left(2 - \dfrac{1}{x^2}\right)$. Thus, $I$ can be expressed as a part of $\dfrac{d}{dx}\left(\dfrac{e^{x^2}}{2x}\right)$, and on integration we get: $I = \dfrac{e^{x^2}(e^2 - 2)}{2} + C$.
Jamia Millia Islamia MCA PYQ
$\displaystyle \int \frac{d\theta}{1 - \tan\theta}$ equals:





Go to Discussion
Jamia Millia Islamia MCA Previous Year PYQ Jamia Millia Islamia MCA JAMIA MILLIA ISLAMIA MCA 2019 PYQ

Solution

Let $I = \int \frac{d\theta}{1 - \tan\theta}$. Multiply numerator and denominator by $\cos\theta$: $I = \int \frac{\cos\theta\,d\theta}{\cos\theta - \sin\theta}$. Let $u = \cos\theta - \sin\theta \Rightarrow du = -(\sin\theta + \cos\theta)d\theta$. Rewrite and integrate ⇒ $I = \dfrac{1}{2}\log|\cos\theta + \sin\theta| + C$.
Jamia Millia Islamia MCA PYQ
The integral of $ \frac{1}{x} $ with respect to $ x $ is :






Go to Discussion
Jamia Millia Islamia MCA Previous Year PYQ Jamia Millia Islamia MCA JAMIA MILLIA ISLAMIA MCA 2025 PYQ

Solution


Jamia Millia Islamia MCA

Online Test Series,
Information About Examination,
Syllabus, Notification
and More.

Click Here to
View More

Jamia Millia Islamia MCA

Online Test Series,
Information About Examination,
Syllabus, Notification
and More.

Click Here to
View More
Limited Seats
× Aspire MCA Promotion

Game Changer NIMCET Test Series 2026

Boost your preparation with mock tests, analysis and rank-focused practice.

JOIN NOW
Ask Your Question or Put Your Review.

loading...