xRy need not implies yRx S:nmsqp⇔qm=pn nmsnm reflexive nmsqpnmsqp,qpssr⇒qpsnm symmetric ⇒qm=pn,ps=rq⇒ms=rn transitive. S is an equivalence relation.
Consider the following relations: R={(x,y)∣x,y are real numbers and x= wy for some rational number w }; S={(nm,qp)∣m,n,p and q are integers such that n,q=0 and qm=pn}. Then
Held on 30 Apr 2010 · Verified 6 Jul 2026.
neither R nor S is an equivalence relation
S is an equivalence relation but R is not an equivalence relation
R and S both are equivalence relations
R is an equivalence relation but S is not an equivalence relation
Sign in to track your attempts and accuracy.
Sign in to keep a private note on this question. Nothing you write is ever public.
If the roots of x² - 5x + k = 0 are in the ratio 2:3, then k equals:
Let $\alpha = 3+4+8+9+13+14+\ldots$ upto 40 terms. If $(\tan\beta)^{\frac{\alpha}{1020}}$ is a root of the equation $x^2+x-2=0$, $\beta \in \left(0, \dfrac{\pi}{2}\right)$, then $\sin^2\beta + 3\cos^2\beta$ is equal to:
If the set of all solutions of $|x^2 + x - 9| = |x| + |x^2 - 9|$ is $[\alpha, \beta] \cup [\gamma, \infty)$, then $(\alpha^2 + \beta^2 + \gamma^2)$ is equal to:
The sum of squares of all the real solutions of the equation $\log_{(x+1)}(2x^2+5x+3) = 4 - \log_{(2x+3)}(x^2+2x+1)$ is equal to ________.
Let $f:(1,\infty)\to\mathbb{R}$ be a function defined as $f(x) = \dfrac{x-1}{x+1}$. Let $f^{i+1}(x) = f(f^i(x))$, $i=1, 2, \ldots, 25$, where $f^1(x)=f(x)$. If $g(x) + f^{26}(x) = 0$, $x \in (1, \infty)$, then the area of the region bounded by the curves $y=g(x)$, $2y=2x-3$, $y=0$ and $x=4$ is:
Work through every JEE Main Algebra PYQ, year by year.