Given the circle C with the equation x2 + y2 - 2x + 10y - 38 = 0. Match the List I with the List II given below concerning C
List I | List II | ||
A | The equation of the polar of (4, 3)with respect to C | I | y + 5 = 0 |
B | The equation of the tangent at (9, - 5) on C | II | x = 1 |
C | The equation of the normal at(- 7, - 5) on C | III | 3x + 8y = 27 |
D | The equation of the diameter of C passing through (1,3) | IV | x + y = 3 |
V | x = 9 |
The correct answer is
A. A B C D | (i) III I V II |
B. A B C D | (ii) IV V I II |
C. A B C D | (iii) III V I II |
D. A B C D | (iv) IV II I V |
The equation of a straight line passing through the point (1, 2) and inclined at 45° to the line y = x + 1 is
5x + y = 7
3x + y = 5
x + y = 3
x - y + 1 = 0
If the area of the triangle formed by the pair of lines 8x2 - 6xy + y2 = 0 and the line 2x + 3y = a is 7, then a is equal to
14
28
D.
28
If the line x + 3y = 0 is the tangent at (0, 0) to the circle of radius 1, then the centre of one such circle is
(3, 0)
A circle passes through the point (3, 4) and cuts the circle x2 + y2 = a2 orthogonally; the locus of its centre is a straight line. If the distance of this straight line from the origin is 25, then a is equal to
250
225
100
25
The equation to the line joining the centres of the circles belonging to the coaxial system of circles 4x2 + 4y2 - 12x + 6y - 3 + (x + 2y - 6) = 0 is
8x - 4y - 15 = 0
8x - 4y + 15 = 0
3x - 4y - 5 = 0
3x - 4y + 5 = 0
Let x + y = k be a normal to the parabola y2 = 12x. If p is length of the perpendicular from the focus of the parabola onto this normal, then 4k - 2p2 is equal to
1
0
- 1
2
If the line 2x + 5y = 12 intersects the ellipse 4x2 + 5y2 = 20 in two distinct points A and B,then mid-point of AB is
(0, 1)
(1, 2)
(1, 0)
(2, 1)
Equation of one of the tangents passing through(2, 8) to the hyperbola 5x2 - y2 = 5 is
3x + y - 14 = 0
3x - y + 2 = 0
x + y + 3 = 0
x - y + 6 = 0