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Integer Answer Type Questions: Conic Sections | JEE Advanced | 35 Years Chapter wise Previous Year Solved Papers for JEE PDF Download

1. The line 2x + y = 1 is tangent to the hyperbola  Integer Answer Type Questions: Conic Sections | JEE Advanced | 35 Years Chapter wise Previous Year Solved Papers for JEE
 If this line passes through the point of intersection of the nearest directrix and the x-axis, then the eccentricity of the hyperbola is (2010) 

Ans.  (2)

Sol.  Intersection point of nearest directrix x = Integer Answer Type Questions: Conic Sections | JEE Advanced | 35 Years Chapter wise Previous Year Solved Papers for JEEand x-axis

is Integer Answer Type Questions: Conic Sections | JEE Advanced | 35 Years Chapter wise Previous Year Solved Papers for JEE

As 2x +y=1 passes throughInteger Answer Type Questions: Conic Sections | JEE Advanced | 35 Years Chapter wise Previous Year Solved Papers for JEE

Integer Answer Type Questions: Conic Sections | JEE Advanced | 35 Years Chapter wise Previous Year Solved Papers for JEE

Also y = –2x+1 is a tangent to Integer Answer Type Questions: Conic Sections | JEE Advanced | 35 Years Chapter wise Previous Year Solved Papers for JEE

Integer Answer Type Questions: Conic Sections | JEE Advanced | 35 Years Chapter wise Previous Year Solved Papers for JEE

⇒ 4a2– a2e2 – 1=1 ⇒ Integer Answer Type Questions: Conic Sections | JEE Advanced | 35 Years Chapter wise Previous Year Solved Papers for JEE 

⇒ 4e–e4 +e= 4 ⇒ e4 – 5e4 + 4=0

⇒ e2 = 4 ase>1 for hyperbola.  ⇒ e= 2

 

 

2. Consider the parabola y2 = 8x . Let Δ1 be the area of the triangle formed by the end points of its latus rectum and the pointInteger Answer Type Questions: Conic Sections | JEE Advanced | 35 Years Chapter wise Previous Year Solved Papers for JEEon the parabola and Δ2 be the area of the triangle formed by drawing tangents at P and at the end points of the latus rectum. Then Integer Answer Type Questions: Conic Sections | JEE Advanced | 35 Years Chapter wise Previous Year Solved Papers for JEE is     (2011) 

Ans. (2)

Sol. Δ1 =  Area of ΔPLL'  Integer Answer Type Questions: Conic Sections | JEE Advanced | 35 Years Chapter wise Previous Year Solved Papers for JEE

Integer Answer Type Questions: Conic Sections | JEE Advanced | 35 Years Chapter wise Previous Year Solved Papers for JEE

Equation of AB,  y = 2x + 1 Equation of AC, y = x + 2 Equation of BC,  – y = x + 2 Solving above equations we get A (1, 3), B (–1, –1), C (–2, 0)

Integer Answer Type Questions: Conic Sections | JEE Advanced | 35 Years Chapter wise Previous Year Solved Papers for JEE

 

 

3. Let S be the focus of the parabola y2  = 8x and let PQ be the common chord of the circle x2 + y2 – 2x – 4y =  0 and the given parabola. The area of the triangle PQS is     (2012)

Ans.  (4)

Sol.  We observe both parabola y2 = 8x and circle x2 + y2 – 2x – 4y = 0 pass through origin
∴ One end of common chord PQ is origin. Say P(0, 0)
Let Q be the point (2t2, 4t), then it will satisfy the equation of circle.
∴ 4t4 + 16t2 – 4t2 – 16t = 0 ⇒ t4 + 3t2 – 4t = 0  ⇒ t (t+ 3t – 4) = 0
⇒ t (t – 1)(t2 + t – 4) = 0   ⇒ t = 0 or 1
For t = 0,  we get point P, therefore t = 1 gives point  Q as (2, 4).
We also observe here that P(0, 0) and Q(2, 4) are end points of diameter of the given circle and focus of the parabola is the point S(2, 0).

∴ Area of  ΔPQS Integer Answer Type Questions: Conic Sections | JEE Advanced | 35 Years Chapter wise Previous Year Solved Papers for JEEsq. units

Integer Answer Type Questions: Conic Sections | JEE Advanced | 35 Years Chapter wise Previous Year Solved Papers for JEE

 

 

4. A vertical line passing through the point (h, 0) intersects the
 ellipse Integer Answer Type Questions: Conic Sections | JEE Advanced | 35 Years Chapter wise Previous Year Solved Papers for JEE

at the points P and Q. Let the tangents to the ellipse at P and Q meet at the point R. If Δ(h) = area of the triangle  Integer Answer Type Questions: Conic Sections | JEE Advanced | 35 Years Chapter wise Previous Year Solved Papers for JEE then

Integer Answer Type Questions: Conic Sections | JEE Advanced | 35 Years Chapter wise Previous Year Solved Papers for JEE(JEE Adv. 2013)
 (a) g(x) is continuous but not differentiable at a
 (b) g(x) is differentiable on R
 (c) g(x) is continuous but not differentiable at b
 (d) g(x) is continuous and differentiable at either (a) or (b) but not both

Ans. (9)

Sol. Vertical line x = h, meets the ellipse  Integer Answer Type Questions: Conic Sections | JEE Advanced | 35 Years Chapter wise Previous Year Solved Papers for JEEat

Integer Answer Type Questions: Conic Sections | JEE Advanced | 35 Years Chapter wise Previous Year Solved Papers for JEEand  Integer Answer Type Questions: Conic Sections | JEE Advanced | 35 Years Chapter wise Previous Year Solved Papers for JEE

By symmetry, tangents at P and Q will meet each other at x-axis.

Integer Answer Type Questions: Conic Sections | JEE Advanced | 35 Years Chapter wise Previous Year Solved Papers for JEE

Tangent at P is  Integer Answer Type Questions: Conic Sections | JEE Advanced | 35 Years Chapter wise Previous Year Solved Papers for JEE

which meets x-axis at Integer Answer Type Questions: Conic Sections | JEE Advanced | 35 Years Chapter wise Previous Year Solved Papers for JEE

Area of  ΔPQR  = Integer Answer Type Questions: Conic Sections | JEE Advanced | 35 Years Chapter wise Previous Year Solved Papers for JEE

i.e.,Integer Answer Type Questions: Conic Sections | JEE Advanced | 35 Years Chapter wise Previous Year Solved Papers for JEE

Integer Answer Type Questions: Conic Sections | JEE Advanced | 35 Years Chapter wise Previous Year Solved Papers for JEE

∴ Δ(h) is a decreasing function.

Integer Answer Type Questions: Conic Sections | JEE Advanced | 35 Years Chapter wise Previous Year Solved Papers for JEEInteger Answer Type Questions: Conic Sections | JEE Advanced | 35 Years Chapter wise Previous Year Solved Papers for JEE

Integer Answer Type Questions: Conic Sections | JEE Advanced | 35 Years Chapter wise Previous Year Solved Papers for JEE

Integer Answer Type Questions: Conic Sections | JEE Advanced | 35 Years Chapter wise Previous Year Solved Papers for JEEInteger Answer Type Questions: Conic Sections | JEE Advanced | 35 Years Chapter wise Previous Year Solved Papers for JEE= 45 – 36 = 9

 

 

5. If the normals of the parabola y2 = 4x drawn at the end points of its latus rectum are tangents to the circle (x – 3)2 + (y + 2)2 = r2, then the value of ris (JEE Adv. 2015)

Ans. (2)

Sol. End points of latus rectum of y2 = 4x are (1, +2)
Equation of normal to y= 4x at (1, 2) is y – 2 = –1(x – 1)
or x + y –3 = 0
As it is tangent to circle (x – 3)2 + (y + 2)2 = r2

Integer Answer Type Questions: Conic Sections | JEE Advanced | 35 Years Chapter wise Previous Year Solved Papers for JEE

 

 

6. Let the curve C be the mirror image of the parabola y2 = 4x with respect to the line x + y + 4 = 0. If A and B are the points of intersection of C with the line  y = –5, then the distance between A and B is (JEE Adv. 2015)

Ans. (4) 

Sol. Let (t2, 2t) be any point on y2 = 4x. Let (h, k) be the image of (t2, 2t) in the line x + y + 4 = 0. Then

Integer Answer Type Questions: Conic Sections | JEE Advanced | 35 Years Chapter wise Previous Year Solved Papers for JEE

⇒ h = –(2t + 4) and k = –(t2 + 4)
For its intersection with, y = –5, we have –(t2 + 4) = –5 ⇒ t = +1
∴ A(–6, –5) and B(–2, –5) ∴ AB = 4.

 

 

7. Suppose that the foci of the ellipse

Integer Answer Type Questions: Conic Sections | JEE Advanced | 35 Years Chapter wise Previous Year Solved Papers for JEE = 1 are (f1, 0)and (f2, 0) where f1 > 0 and f2 < 0. Let P1 and P2 be two parabolas with a common vertex at (0, 0) and with foci at (f1, 0) and (2f2, 0), respectively. Let T1 be a tangent to P1 which passes through (2f2, 0) and Tbe a tangent to P2 which passes through (f1, 0). If m1 is the slope of T1 and m2 is the slope of T2, then the value of

Integer Answer Type Questions: Conic Sections | JEE Advanced | 35 Years Chapter wise Previous Year Solved Papers for JEE is (JEE Adv. 2015)

Ans. (4)

Sol.  Ellipse :Integer Answer Type Questions: Conic Sections | JEE Advanced | 35 Years Chapter wise Previous Year Solved Papers for JEE

⇒ a = 3, b = Integer Answer Type Questions: Conic Sections | JEE Advanced | 35 Years Chapter wise Previous Year Solved Papers for JEE

∴ f1 = 2 and f= –2 P1 : y2 = 8x and P2 : y2 = –16x

T1 : y = m1x  +Integer Answer Type Questions: Conic Sections | JEE Advanced | 35 Years Chapter wise Previous Year Solved Papers for JEE

It passes through (–4, 0),

Integer Answer Type Questions: Conic Sections | JEE Advanced | 35 Years Chapter wise Previous Year Solved Papers for JEE

Integer Answer Type Questions: Conic Sections | JEE Advanced | 35 Years Chapter wise Previous Year Solved Papers for JEE

It passes through (2, 0)

Integer Answer Type Questions: Conic Sections | JEE Advanced | 35 Years Chapter wise Previous Year Solved Papers for JEE

Integer Answer Type Questions: Conic Sections | JEE Advanced | 35 Years Chapter wise Previous Year Solved Papers for JEE

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FAQs on Integer Answer Type Questions: Conic Sections - JEE Advanced - 35 Years Chapter wise Previous Year Solved Papers for JEE

1. What are conic sections?
Ans. Conic sections are curves that result from the intersection of a cone with a plane. The four types of conic sections are the circle, ellipse, parabola, and hyperbola.
2. How are conic sections relevant to JEE Advanced?
Ans. Conic sections are an important topic in the JEE Advanced exam as questions related to them frequently appear in the mathematics section. A thorough understanding of conic sections is essential for solving these questions.
3. What is the general equation of a conic section?
Ans. The general equation of a conic section is given by Ax^2 + Bxy + Cy^2 + Dx + Ey + F = 0, where A, B, C, D, E, and F are constants. By analyzing the coefficients of this equation, we can determine the type and properties of the conic section.
4. How can I determine the nature of a conic section from its equation?
Ans. The nature of a conic section can be determined by analyzing the coefficients of its general equation. For example, if B^2 - 4AC = 0, it represents a parabola. If B^2 - 4AC < 0, it represents an ellipse. If B^2 - 4AC > 0, it represents a hyperbola. If A = C and B = 0, it represents a circle.
5. What are the properties of conic sections?
Ans. The properties of conic sections vary depending on their type. Some common properties include the focal length, eccentricity, major and minor axes, directrix, vertex, and equation of the tangent line. Understanding these properties is crucial for solving problems related to conic sections in the JEE Advanced exam.
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