CBSE Class 11 Mathematics Conic Sections Worksheet Set B

Question. If the length of the chord of the circle, x² + y² = r² (r > 0) along the line, y – 2x = 3 is r, then r² is equal to :
(a) 9/5
(b) 12
(c) 24/5
(d) 12/5
Answer : D

Question. The circle passing through the intersection of the circles, x² + y² - 6x = 0 and x² + y² - 4y = 0, having its centre on the line, 2x -3y +12 = 0, also passes through the point: 
(a) (–1, 3)
(b) (–3, 6)
(c) (–3, 1)
(d) (1, –3)
Answer : B

Question. If a tangent to the circle x² + y² = 1intersects the coordinate axes at distinct points P and Q, then the locus of the midpoint of PQ is:
(a) x² + y² – 4x²y² = 0
(b) x² + y² – 2xy = 0
(c) x² + y² – 16x²y² = 0
(d) x² + y² – 2x²y² = 0
Answer : A

Question. If the circles x² + y² + 5Kx + 2y + K = 0 and 2 (x² + y²) + 2Kx + 3y – 1= 0, (K∈R), intersect at the points P and Q, then the line 4x + 5y – K = 0 passes through P and Q, for: 
(a) infinitely many values of K
(b) no value of K.
(c) exactly two values of K
(d) exactly one value of K
Answer : B

Question. If the angle of intersection at a point where the two circles with radii 5 cm and 12 cm intersect is 90o, then the length (in cm) of their common chord is : 
(a) 13/5
(b) 120/13
(c) 60/13
(d) 13/2
Answer : B

Question. A circle touching the x-axis at (3, 0) and making an intercept of length 8 on the y-axis passes through the point :
(a) (3, 10)
(b) (3, 5)
(c) (2, 3)
(d) (1, 5)
Answer : A

Question. All the points in the set S = {a + i / a - 1 : ∝ ∈ R} (i = √-1) lie on a:
(a) straight line whose slope is 1.
(b) circle whose radius is 1.
(c) circle whose radius is √2 .
(d) straight line whose slope is –1.
Answer : B

Question. The line x = y touches a circle at the point (1, 1). If the circle also passes through the point (1, –3), then its radius is: 
(a) 3
(b) 2√2
(c) 2
(d) 3√2
Answer : B

Question. If a circle of radius R passes through the origin O and intersects the coordinate axes at A and B, then the locus of the foot of perpendicular from O on AB is :
(a) (x² + y²)² = 4R² x² y²
(b) (x² + y²)³ = 4R² x² y²
(c) (x² + y²)² = 4Rx² y²
(d) (x² + y²) (x + y) = Rx² y²
Answer : B

Question. If a line, y = mx + c is a tangent to the circle, (x – 3)² + y² = 1 and it is perpendicular to a line L₁, where L₁ is the tangent to the circle, x² + y² = 1 at the point (1/√2, 1/√2) ; then:
(a) c² – 7c + 6 = 0
(b) c² + 7c + 6 = 0
(c) c² + 6c + 7 = 0
(d) c² – 6c + 7 = 0
Answer : C

Question. Three circles of radii a, b, c (a < b < c) touch each other externally. If they have x-axis as a common tangent, then:
(a) 1/√a = 1/√b + 1/√c
(b) 1/√b = 1/√a + 1/√c
(c) a, b, c are in A.P
(d) √a, √b, √c are in A.P.
Answer : A

Question. A circle cuts a chord of length 4a on the x-axis and passes through a point on the y-axis, distant 2b from the origin.
Then the locus of the centre of this circle, is :
(a) a hyperbola
(b) an ellipse
(c) a straight line
(d) a parabola
Answer : D

Question. Let the tangents drawn from the origin to the circle, x² + y²– 8x – 4y + 16 = 0 touch it at the points A and B. The (AB)² is equal to: 
(a) 52/5
(b) 56/5
(c) 64/5
(d) 32/5
Answer : C

Question. Let C₁ and C₂ be the centres of the circles x² + y² – 2x –2y – 2 = 0 and x² + y² – 6x –6y + 14 = 0 respectively. If P and Q are the points of intersection of these circles then, the area (in sq. units) of the quadrilateral PC₁QC₂ is :
(a) 8
(b) 6
(c) 9
(d) 4
Answer : D

Question. The common tangent to the circles x² + y² = 4 and x² + y² + 6x + 8y – 24 = 0 also passes through the point:
(a) (4, –2)
(b) (– 6, 4)
(c) (6, –2)
(d) (– 4, 6)
Answer : C

Question. If a circle C passing through the point (4, 0) touches the circle x² + y² + 4x – 6y = 12 externally at the point (1, – 1), then the radius of C is:
(a) 2√5
(b) 4
(c) 5
(d) √57
Answer : C

Question. If the circles x² + y² – 16x – 20y + 164 = r² and (x – 4)² + (y – 7)² = 36 intersect at two distinct points, then: 
(a) r > 11
(b) 0 < r < 1
(c) r = 11
(d) 1 < r < 11
Answer : D

Question. A square is inscribed in the circle x² + y² - 6x + 8y -103 = 0 with its sides parallel to the coordinate axes. Then the distance of the vertex of this square which is nearest to the origin is :
(a) 6
(b) √137
(c) √41
(d) 13
Answer : C

Question. Two circles with equal radii are intersecting at the points (0, 1) and (0, –1). The tangent at the point (0, 1) to one of the circles passes through the centre of the other circle.
Then the distance between the centres of these circles is :
(a) 1
(b) 2
(c) 2√2
(d) √2
Answer : B

Question. The sum of the squares of the lengths of the chords intercepted on the circle, x² + y² = 16, by the lines, x + y = n, n ∈ N, where N is the set of all natural numbers, is :
(a) 320
(b) 105
(c) 160
(d) 210
Answer : D

Question. A circle touches the y-axis at the point (0, 4) and passes through the point (2, 0). Which of the following lines is not a tangent to this circle? 
(a) 4x – 3y + 17 = 0
(b) 3x – 4y – 24 = 0
(c) 3x + 4y – 6 = 0
(d) 4x + 3y – 8 = 0
Answer : D

Question. If a variable line, 3x + 4y – λ = 0 is such that the two circles x² + y² – 2x – 2y + 1 = 0 and x² + y² – 18x – 2y + 78 = 0 are on its opposite sides, then the set of all values of l is the interval : 
(a) (2, 17)
(b) [13, 23]
(c) [12, 21]
(d) (23, 31)
Answer : C

Question. If the area of an equilateral triangle inscribed in the circle, x² + y² + 10x + 12y + c = 0 is 27√3 sq. units then c is equal to:
(a) 13
(b) 20
(c) – 25
(d) 25
Answer : D

Question. The straight line x + 2y = 1 meets the coordinate axes at A and B. A circle is drawn through A, B and the origin. Then the sum of perpendicular distances from A and B on the tangent to the circle at the origin is : 
(a) √5/2
(b) 2√5
(c) √5/4
(d) 4√5
Answer : A

Question. Let L₁ be a tangent to the parabola y² = 4(x + 1) and L₂ be a tangent to the parabola y² = 8(x + 2) such that L₁ and L₂ intersect at right angles. Then L₁ and L₂ meet on the straight line :
(a) x + 3 = 0
(b) 2x + 1 = 0
(c) x + 2 = 0
(d) x + 2y = 0
Answer : A

Question. The locus of a point which divides the line segment oining the point (0, –1) and a point on the parabola, x² = 4y, internally in the ratio 1 : 2, is:
(a) 9x² – 12y = 8
(b) 9x² – 3y = 2
(c) x² – 3y = 2
(d) 4x² – 3y = 2
Answer : A

Question. Equation of a common tangent to the parabola y² = 4x and the hyperbola xy = 2 is :
(a) x + y + 1 = 0
(b) x – 2y + 4 = 0
(c) x + 2y + 4 = 0
(d) 4x + 2y + 1 = 0
Answer : C

Question. The centre of the circle passing through the point (0, 1) and touching the parabola y = x² at the point (2,4) is:
(a) (-53/10, 16/5)
(b) (6/5, 53/10)
(c) (3/10, 16/5)
(d) (-16/5, 53/10)
Answer : D

Question. Let the latus ractum of the parabola y² = 4x be the common chord to the circles C₁ and C₂ each of them having radius 2√5. Then, the distance between the centres of the circles C₁ and C₂ is : 
(a) 8√5
(b) 8
(c) 12
(d) 4√5
Answer : B

Question. If y = mx + 4 is a tangent to both the parabolas, y² =4x and x² = 2by, then b is equal to:
(a) –32
(b) –64
(c) –128
(d) 128
Answer : C

Question. The tangents to the curve y = (x – 2)² –1 at its points of intersection with the line x – y = 3, intersect at the point :
(a) (5/2, 1)
(b) (- 5/2, - 1)
(c) (5/2, 1)
(d) (- 5/2, 1)
Answer : C

Question. If the tangents on the ellipse 4x² + y² = 8 at the points (1, 2) and (a, b) are perpendicular to each other, then a2 is equal to :
(a) 128/17
(b) 64/17
(c) 4/17
(d) 2/17
Answer : D

Question. If the area of the triangle whose one vertex is at the vertex of the parabola, y² + 4 (x – a²) = 0 and the other two vertices are the points of intersection of the parabola and y-axis, is 250 sq. units, then a value of ‘a’ is :
(a) 5√5
(b) 5(2^1/3)
(c) (10)^2/3
(d) 5
Answer : A

Question. The tangent to the parabola y² = 4x at the point where it intersects the circle x² + y² = 5 in the first quadrant, passes through the point :
(a) (- 1/3, 4/3)
(b) (1/4, 3/4)
(c) (3/4, 7/4)
(d) (1/4, 1/2)
Answer : C

Question. If the line ax + y = c, touches both the curves x² + y²= 1 and y² = 4√2x , then |c| is equal to
(a) 2
(b) 1/√2
(c) 1/2
(d) √2
Answer : D

Question. If the common tangent to the parabolas, y² = 4x and x² = 4y also touches the circle, x² + y²= c₂, then c is equal to:
(a) 1/2√2
(b) 1/√2
(c) 1/4
(d) 1/2
Answer : B

Question. Let P be a point on the parabola, y² = 12x and N be the foot of the perpendicular drawn from P on the axis of the parabola. A line is now drawn through the mid-point M of PN, parallel to its axis which meets the parabola at Q. If the y-intercept of the line NQ is 4/3, then :
(a) PN = 4
(b) MQ = 1/3
(c) MQ = 1/4
(d) PN = 3
Answer : C

Question. The area (in sq. units) of the smaller of the two circles that touch the parabola, y² = 4x at the point (1, 2) and the x-axis is: 
(a) 8p (2 – v2)
(b) 4p (2 – √2 )
(c) 4p (3 + √2)
(d) 8p (3 – 2√2)
Answer : D

Question. The area (in sq. units) of an equilateral triangle inscribed in the parabola y² = 8x, with one of its vertices on the vertex of this parabola, is : 
(a) 64√3
(b) 256√3
(c) 192√3
(d) 128√3
Answer : C

Question. If one end of a focal chord AB of the parabola y² = 8x is at A(1/√2, - 2) then the equation of the tangent to it at B is: 
(a) 2x + y – 24 = 0
(b) x – 2y + 8 = 0
(c) x + 2y + 8 = 0
(d) 2x – y – 24 = 0
Answer : B

Question. If one end of a focal chord of the parabola, y² = 16x is at (1, 4), then the length of this focal chord is:
(a) 25
(b) 22
(c) 24
(d) 20
Answer : A

Question. Axis of a parabola lies along x-axis. If its vertex and focus are at distance 2 and 4 respectively from the origin, on the positive x-axis then which of the following points does not lie on it?
(a) (5, 2√6)
(b) (8, 6)
(c) (6, 4√2)
(d) (4, – 4)
Answer : B

Question. If the parabolas y² = 4b(x – c) and y² = 8ax have a common normal, then which one of the following is a valid choice for the ordered triad (a, b, c)?
(a) (1/2, 2,3)
(b) (1, 1, 3)
(c)(1/2, 2,0)
(d) (1, 1, 0)
Answer : D

Question. The number of integral values of k for which the line, 3x + 4y = k intersects the circle, x² + y² - 2x - 4y + 4 = 0 at two distinct points is ________. 
Answer : (9)

Question. Let PQ be a diameter of the circle x² + y² = 9. If a and b are the lengths of the perpendiculars from P and Q on the straight line, x + y = 2 respectively, then the maximum value of aβ is ______________. 
Answer : (7)

Question. If the curves, x² – 6x + y² + 8 = 0 and x2 – 8y + y² + 16 – k = 0, (k > 0) touch each other at a point, then the largest value of k is ______. 
Answer : (36)

Question. The diameter of the circle, whose centre lies on the line x + y = 2 in the first quadrant and which touches both the lines x = 3 and y = 2, is __________.
Answer : (3)

100. Let a line y = mx (m > 0) intersect the parabola, y² = x at a point P, other than the origin. Let the tangent to it at P meet the x-axis at the point Q, If area (ΔOPQ) = 4 sq. units, then m is equal to _______. 
Answer : (0.5)
 

Q1. Find the equation of circle passing through pt (2, 4) and centre at the intersection of the line x – y = 4 and 2x + 3y = -7.

Q2. Find the centre and radius of each of the following circle:-
(a) x² + y² + 8x + 10y – 8 = 0
(b) x² + y² – x + 2y – 3 = 0
(c) 3x² + 3y² + 12x – 18y -11 = 0

Q3. Find the equation of the circle passing through the points (2, 3) and (-1, 1) and whose centre is on the line x – 3y – 11 = 0.

Q4. Find the equation of the circle concentric with the circle x² + y² + 4x + 6y + 11 = 0 and passing through the point (5, 4).

Q5. If a parabolic reflector is 18 cm in diameter and 56 cm deep, find the latus rectum. Find the depth when diameter is 12 cm. Also find the diameter when depth is 2 cm. (13.5 cm, 3/8 cm 6 √3 cm)

Q6. Find the equation of parabola which is symmetric about the y axis and passes through the point (-2, -3).

Q7. For each of the following parabolas, find the co-ordinates of the focus, axis, the equation of the directric and the length of latus rectum (i) 2y² = 7x (ii) x² = -12y (iii) y² + 2x = 0

Q8. For each of the following ellipses, find the coordinator of the foci, the vertices the length of major axis, the minor axis the eccentricity and the length of the latus rectum :-
(i) 16x² + 25y² = 400 (ii) x²/4 + y²/25 = 1 (iii) 4x² + 9y² =1

Q9. Find the equation of ellipse whose foci are (+4, 0) and the eccentricity is 1/3

Q10. In each of the following hyperbolas, find the coordinates of the vertices and the foci, the eccentricity, the lengths of the axes and the latus rectum: - (i) x² – 4y² = 4 (ii) 49y² – 16x² = 784 (iii) y²/9 - x²/27 =1

Q11. Prove that eccentricity of the hyperbola x² – 4y² = 100 is √5/2

Q12. Find the equation of hyperbola whose foci are (+ 4, 0) and length of latus rectum is 12.

Q.1 Find the coordinates of the foci, the vertices, the length of major axis, the minor axis, the eccentricity and the length of the latus rectum of the ellipse x²/16 + y²/9 = 1.

Q.2 If a parabolic reflector is 20 cm in diameter and 5 cm deep, find the focus.

Q.3 Find the equation of the parabola with vertex (0,0), passing through the point (4,5) and symmetric about the x - axis.

Q.4 Find the equation of the circle which passes though the points (3,7), (5,5) and has its centre on the line x - 4y = 1.

Q.5 Find the equation of the circle which passes through the points (2, –2), and (3, 4) and whose centre lies on the line x + y = 2.

Q.6 Examine whether the points (2,3) lies inside, outside or on the circle x² + y² + 2x + 2y - 7 = 0.

Q.7 Find the equation of the hyperbola satisfying the give conditions: Vertices (0, ±3), foci (0, ±5).

Q.8 Find the coordinates of the foci, the vertices, the length of major axis, the minor axis, the eccentricity and the length of the latus rectum of the ellipse x²/25 + y²/100 = 1.

Q.9 Find the centre and radius of the circle : x² + y² - 8x + 10y - 12 = 0

Q.10 Find the equation of the hyperbola satisfying the give conditions: Foci (±4, 0), the latus rectum is of length 12.

Q.11 Find the equation of the circle with centre (–a, –b) and radius √a² - b²

Q.12 Find the equation of a circle with centre (2, 2) and passes through the point (4, 5).

Q.13 An equilateral triangle is inscribed in the parabola y² = 4ax, where one vertex is at the vertex of the parabola. Find the length of the side of the triangle.

Q.14 Find the equation of the parabola that satisfies the following conditions: Vertex (0, 0) passing through (2, 3) and axis is along x-axis.

Q.15 Find the radius of the circle x² + y² - 4x + 2y + 1 = 0. (1 mark)

Q.16 Find the equation of the ellipse that satisfies given conditions:Vertices (±6, 0), foci (±4, 0).

Q.17 Find the equation of the circle with radius 5 whose centre lies on x-axis and passes through the point (2,3).

Q.18 Find the equation of the circle with centre at (-3, 2) and radius 4. (1 mark)

Q.19 Find the equation for the ellipse that satisfies the given conditions: Major axis on the x-axis and passes through the points (4, 3) and (6, 2).

Q.20 Find the equation of the parabola with focus (5, 0) and directrix x = -5.