Previous Year Papers

Download Solved Question Papers Free for Offline Practice and view Solutions Online.

Test Series

Take Zigya Full and Sectional Test Series. Time it out for real assessment and get your results instantly.

Test Yourself

Practice and master your preparation for a specific topic or chapter. Check you scores at the end of the test.

Conic Section

Multiple Choice Questions

281.

The line y = x intersects the hyperbola $\frac{x^{2}}{9} - \frac{y^{2}}{25} = 1$ at the points P and Q. The eccentricity of ellipse with PQ as major axis and minor axis of length $\frac{5}{\sqrt{2}}$ is

$\frac{\sqrt{5}}{3}$
$\frac{5}{\sqrt{3}}$
$\frac{5}{9}$
$\frac{2 \sqrt{2}}{9}$

282.

If the distance between the foci of an ellipse is equal to the length of the latusrectum, then its eccentricity is

$\frac{1}{4} (\sqrt{5} - 1)$
$\frac{1}{2} (\sqrt{5} + 1)$
$\frac{1}{2} (\sqrt{5} - 1)$
$\frac{1}{4} (\sqrt{5} + 1)$

283.

The equation of the circle passing through the point (1, 1) and the points of intersection of x² + y² - 6x - 8 = 0 and x² + y² - 6 = 0 is

x² + y² + 3x - 5 = 0
x² + y² - 4x + 2 = 0
x² + y² + 6x - 4 = 0
x² + y² - 4y - 2 = 0

284.

The area of the region bounded by the parabola y = x² - 4x + 5 and the straight line y= x + l is

$\frac{1}{2}$
2
3
$\frac{9}{2}$

285.
If P be a point on the parabola y = 4ax with focus F. Let Q denote the foot of the perpendicular from P onto the directrix. Then, $\frac{\tan (∠ PQF)}{\tan (∠ PFQ)}$ is

1

$\frac{1}{2}$

2

$\frac{1}{4}$

Equation of parabola is,

y² = 4ax ...(i)

Let the parametric coordinate of point P on the parabola is (a, 2a).

Now, $QF = 2 \sqrt{2} a$ ,

PQ = 2a and PF = 2a

we observe that, QF² = PQ² + PF²

$\Rightarrow 8 a^{2} = 4 a^{2} + 4 a^{2} = 8 a^{2}$

So, $∠$ QPF form a right angle isoceles triangle.

In which, $∠ PQF = ∠ PFQ$

$\Rightarrow \tan (∠ PQF) = \tan (∠ PFQ) \Rightarrow \frac{\tan (∠ PQF)}{\tan (∠ PFQ)} = 1$

286.

The equations of the circles, which touch both the axes and the line 4x + 3y = 12 and have centres in the first quadrant, are

x² + y² + x - y + 1 = 0
x² + y² - 2x - 2y + 1 = 0
x² + y² - 12x - 12y + 36 = 0
x² + y² - 6x - 6y + 36 = 0

287.

The equation y² + 4x + 4y + k = 0 represents a parabola whose latusrectum is

288.

If the circles x² + y² + 2x + 2ky + 6 = 0 and x² + y²+ 2ky + k = 0 intersect orthogonally, then k is equal to

$2 or - \frac{3}{2}$
$- 2 or - \frac{3}{2}$
$2 or \frac{3}{2}$
$- 2 or \frac{3}{2}$

289.

If four distinct points (2k, 3k), (2, 0), (0, 3), (0, 0) lie on a circle, then

k < 0
0 < k < 1
k = 1
k > 1

290.

Let the foci of the ellipse $\frac{x^{2}}{9} + y^{2} = 1$ subtend a right angle at a point P. Then, the locus of P is

x² + y² = 1
x² + y² = 2
x² + y² = 4
x² + y² = 8

Previous Year Papers

Test Series

Test Yourself

Multiple Choice Questions

285. If P be a point on the parabola y = 4ax with focus F. Let Q denote the foot of the perpendicular from P onto the directrix. Then, tan∠PQFtan∠PFQ is 1 12 2 14

285.
If P be a point on the parabola y = 4ax with focus F. Let Q denote the foot of the perpendicular from P onto the directrix. Then, $\frac{\tan (∠ PQF)}{\tan (∠ PFQ)}$ is

1

$\frac{1}{2}$

2

$\frac{1}{4}$