Download App

Linear Inequalities — Maths STD 11 Science — Question

CBSE BoardEnglish MediumSTD 11 ScienceMathsLinear Inequalities1 Mark
MCQ
If $–3\text{x}+17<-13, $ then:
  • $\text{x}\in\big(10,\infty\big)$
  • B
    $\text{x}\in\big[10,\infty\big)$
  • C
    $\text{x}\in\big(-\infty,10\big)$
  • D
    $\text{x}\in\big[-10,10\big)$

Answer

Correct option: A.
$\text{x}\in\big(10,\infty\big)$

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 "M.C.Q (1 Marks)" from Linear InequalitiesLinear Inequalities — all question typesMaths STD 11 Science question papersCBSE Board STD 11 Science question papersCBSE Board question paper generator

Similar questions

The equations of the lines through $(-1,-1)$ and making angles of $45^{\circ}$ with the line $x+y=0$ are
In a class of $120$ students numbered $1$ to $120$, all even numbered students opt for Physics, whose numbers are divisible by $5$ opt for Chemistry and those whose numbers are divisible by $7$ opt for Math. How many opt for none of the three subjects?
The mean of the numbers $a, b, 8, 5, 10$ is $6$ and the variance is $6.80.$ Then which one of the following gives possible values of $a$ and $b$ $?$ 
A committee consists of $9$ experts taken from three institutions $A, B$ and $C$, of which $2$ are from $A, 3$ from $B$ and $4$ from $C$. If three experts resign, then the probability that they belong to different institutions is
Given an $A.P.$ whose terms are all positive integers. The sum of its first nine terms is greater than $200$ and less than $220$. If the second term in it is $12$, then its $4^{th}$ term is
Let $x = \alpha + \beta ,\,y = \alpha \omega + \beta {\omega ^2},\,z = \alpha {\omega ^2} + \beta \omega ,\,\omega $ is an imaginary cube root of unity. Product of $xyz$ is
If $A, B, C$ are acute positive angles such that $A + B + C = \pi $ and $\cot A\,\cot \,B\,\cot \,C = K,$ then
Tangents drawn from origin $O$ two the circle $x^2 + y^2 + 2gx + 2fy + c$ = $0$ touch the circle at the points $P$ and $Q$. Then the equation of the circumcircle of the triangle $OPQ$ is
Solution of the equation ${9^x} - {2^{x + {1 \over 2}}} = {2^{x + {3 \over 2}}} - {3^{2x - 1}}$
For $x \ne 0,{\left( {{{{x^l}} \over {{x^m}}}} \right)^{({l^2} + lm + {m^2})}}$${\left( {{{{x^m}} \over {{x^n}}}} \right)^{({m^2} + nm + {n^2})}}{\left( {{{{x^n}} \over {{x^l}}}} \right)^{({n^2} + nl + {l^2})}}=$