Answer the following by appropriately matching the lists based on… - Vidyadip

MCQ

Answer the following by appropriately matching the lists based on the information given in the paragraph

Let the circles $C_1: x^2+y^2=9$ and $C_2:(x-3)^2+(y-4)^2=16$, intersect at the points $X$ and $Y$. Suppose that another circle $C_3:(x-h)^2+(y-k)^2=r^2$ satisfies the following conditions :

$(i)$ centre of $C _3$ is collinear with the centres of $C _1$ and $C _2$

$(ii)$ $C _1$ and $C _2$ both lie inside $C _3$, and

$(iii)$ $C _3$ touches $C _1$ at $M$ and $C _2$ at $N$.

Let the line through $X$ and $Y$ intersect $C _3$ at $Z$ and $W$, and let a common tangent of $C _1$ and $C _3$ be a tangent to the parabola $x^2=8 \alpha y$.

There are some expression given in the $List-I$ whose values are given in $List-II$ below:

$List-I$	$List-II$
$(I)$ $2 h + k$	$(P)$ $6$
$(II)$ $\frac{\text { Length of } ZW }{\text { Length of } XY }$	$(Q)$ $\sqrt{6}$
$(III)$ $\frac{\text { Area of triangle } MZN }{\text { Area of triangle ZMW }}$	$(R)$ $\frac{5}{4}$
$(IV)$ $\alpha$	$(S)$ $\frac{21}{5}$
	$(T)$ $2 \sqrt{6}$
	$(U)$ $\frac{10}{3}$

($1$) Which of the following is the only INCORRECT combination?

$(1) (IV), (S)$ $(2) (IV), (U)$ $(3) (III), (R)$ $(4) (I), (P)$

($2$) Which of the following is the only CORRECT combination?

$(1) (II), (T)$ $(2) (I), (S)$ $(3) (I), (U)$ $(4) (II), (Q)$

Give the answer or quetion ($1$) and ($2$)

✓
$1,4$
B
$1,3$
C
$1,2$
D
$2,4$

✓

Answer

Correct option: A.

$1,4$

a
(image)

$MC _1+ C _1 C _2+ C _2 N =2 r$

$\Rightarrow 3+5+4=2 r \Rightarrow r =6 \Rightarrow \text { Radius of } C _3=6$

Suppose centre of $C_3$ be $\left(0+r_4 \cos \theta, 0+r_4 \sin \theta\right),\left\{\begin{array}{l}r_4=C_1 C_3=3 \\ \tan \theta=\frac{4}{3}\end{array}\right\}$

$C _3=\left(\frac{9}{5}, \frac{12}{5}\right)=( h , k ) \Rightarrow 2 h + k =6$

Equation of $ZW$ and $XY$ is $3 x +4 y -9=0$

(common chord of circle $C _1=0$ and $C _2=0$ )

$ZW =2 \sqrt{ r ^2- p ^2}=\frac{24 \sqrt{6}}{5}$ (where $r =6$ and $p =\frac{6}{5}$ )

(image)

$XY =2 \sqrt{ r _1^2- p _1^2}=\frac{24}{5}$ (where $r _1=3$ and $p _1=\frac{9}{5}$ )

(image)

$\frac{\text { Length of } ZW }{\text { Length of } XY }=\sqrt{6}$

Let length of perpendicular from $M$ to $ZW$ be $\lambda, \lambda=3+\frac{9}{5}=\frac{24}{5}$

$\frac{\text { Area of } \triangle MZN }{\text { Area of } \triangle ZMW }=\frac{\frac{1}{2}( MN ) \times \frac{1}{2}( ZW )}{\frac{1}{2} \times ZW \times \lambda}=\frac{1}{2} \frac{ MN }{\lambda}=\frac{5}{4}$

$C_3:\left(x-\frac{9}{5}\right)^2+\left(y-\frac{12}{5}\right)^2=6^2$

$C_1: x^2+y^2-9=0$

common tangent to $C _1$ and $C _3$ is common chord of $C _1$ and $C _3$ is $3 x +4 y +15=0$.

Now $3 x+4 y+15=0$ is tangent to parabola $x^2=8 \alpha y$.

$x ^2=8 \alpha\left(\frac{-3 x -15}{4}\right) \Rightarrow 4 x ^2+24 \alpha x +120 \alpha=0$

$D =0 \Rightarrow \alpha=\frac{10}{3}$

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