TS EAMCET 2020 (Online) 10th September Evening Shift | Straight Lines and Pair of Straight Lines Question 162 | Mathematics

Let $A(2,1)$ be a point and equation of the straight line $L$ be $x-y=0$. Let $a$ and $b$ respectively represent the distances from a variable point $P(\alpha, \beta)$ to $A$ and to the line $L$. If $C$ is distance of the point $A$ from origin such that $a=b c$, then locus of $P$ is

$3 x^2+3 y^2+10 x y+8 x+4 y+10=0$

$3 x^2+3 y^2-10 x y+8 x+4 y-10=0$

$3 x^2+2 y^2-10 x y+8 x+4 y+10=0$

$2 x^2+3 y^2-10 x y-8 x-4 y-10=0$

TS EAMCET 2020 (Online) 10th September Evening Shift

MCQ (Single Correct Answer)

-0

The point $(4,1)$ undergoes the following transformations successively :

(i) Reflection is the line $x-y=0$

(ii) Shifting through a distance of 2 units along the positive $X$-axis

(iii) Projection on $X$-axis

The coordinates of the point in its final position are

$(3,4)$

$(4,3)$

$(3,0)$

$(4,0)$

TS EAMCET 2020 (Online) 10th September Evening Shift

MCQ (Single Correct Answer)

-0

Two straight lines $3 x+4 y=5$ and $4 x-3 y=15$ intersect at the point $A$. The equations of the lines passing through $(1,2)$ and intersecting the given lines at $B$ and $C$ such that $A B=A C$ are

$x+4 y=9,4 x-y=2$

$9 x-2 y=5,2 x+9 y=20$

$6 x-y=4, x+6 y=13$

$7 x+y=9, x-7 y+13=0$

TS EAMCET 2020 (Online) 10th September Evening Shift

MCQ (Single Correct Answer)

-0

The equation of a line making an angle $60^{\circ}$ with the line $x+y-3=0$ and passing through the point $(1,1)$ is

$(1+\sqrt{3}) x+(1-\sqrt{3}) y-2=0$

$2 x+y-3=0$

$\sqrt{3} x+(1-\sqrt{3}) y=1$

$\sqrt{3} x+(2+\sqrt{3}) y=2(1+\sqrt{3})$

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