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The equation of one of the common tangents to the parabola $y^{2}=8 x$ and $x^{2}+y^{2}-$
The equation of one of the common tangents to the parabola $y^{2}=8 x$ and $x^{2}+y^{2}-$
Updated On: Jun 25, 2024
- y = -x + 2
- y = x - 2
- y = x + 2
- None of these
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The Correct Option is C
Solution and Explanation
Any tangent to parabola $y^{2}=8 x$ is
$y=m x+\frac{2}{m} \ldots$ (i)
It touches the circle $x^{2}+y^{2}-12 x+4=0$,
if the length of perpendicular from the centre $(6,0)$ is equal to radius $\sqrt{32}$.
$\therefore \frac{6 m +\frac{2}{ m }}{\sqrt{ m ^{2}+1}}=\pm \sqrt{32} $
$\Rightarrow\left(3 m +\frac{1}{ m }\right)^{2}=8\left( m ^{2}+1\right)$
$\Rightarrow\left(3 m ^{2}+1\right)^{2}=8\left( m ^{4}+ m ^{2}\right)$
$\Rightarrow m ^{4}-2 m ^{2}+1=0 $
$\Rightarrow m =\pm 1$
Hence, the required tangents are $y=x+2$ and $y=-x-2$.
$y=m x+\frac{2}{m} \ldots$ (i)
It touches the circle $x^{2}+y^{2}-12 x+4=0$,
if the length of perpendicular from the centre $(6,0)$ is equal to radius $\sqrt{32}$.
$\therefore \frac{6 m +\frac{2}{ m }}{\sqrt{ m ^{2}+1}}=\pm \sqrt{32} $
$\Rightarrow\left(3 m +\frac{1}{ m }\right)^{2}=8\left( m ^{2}+1\right)$
$\Rightarrow\left(3 m ^{2}+1\right)^{2}=8\left( m ^{4}+ m ^{2}\right)$
$\Rightarrow m ^{4}-2 m ^{2}+1=0 $
$\Rightarrow m =\pm 1$
Hence, the required tangents are $y=x+2$ and $y=-x-2$.
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Concepts Used:
Parabola
Parabola is defined as the locus of points equidistant from a fixed point (called focus) and a fixed-line (called directrix).
Standard Equation of a Parabola
For horizontal parabola
- Let us consider
- Origin (0,0) as the parabola's vertex A,
- Two equidistant points S(a,0) as focus, and Z(- a,0) as a directrix point,
- P(x,y) as the moving point.
- Let us now draw SZ perpendicular from S to the directrix. Then, SZ will be the axis of the parabola.
- The centre point of SZ i.e. A will now lie on the locus of P, i.e. AS = AZ.
- The x-axis will be along the line AS, and the y-axis will be along the perpendicular to AS at A, as in the figure.
- By definition PM = PS
=> MP2 = PS2
- So, (a + x)2 = (x - a)2 + y2.
- Hence, we can get the equation of horizontal parabola as y2 = 4ax.
For vertical parabola
- Let us consider
- Origin (0,0) as the parabola's vertex A
- Two equidistant points, S(0,b) as focus and Z(0, -b) as a directrix point
- P(x,y) as any moving point
- Let us now draw a perpendicular SZ from S to the directrix.
- Then SZ will be the axis of the parabola. Now, the midpoint of SZ i.e. A, will lie on P’s locus i.e. AS=AZ.
- The y-axis will be along the line AS, and the x-axis will be perpendicular to AS at A, as shown in the figure.
- By definition PM = PS
=> MP2 = PS2
So, (b + y)2 = (y - b)2 + x2
- As a result, the vertical parabola equation is x2= 4by.
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