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1001

then tan t =

then tan t =

IIT 2006
1002

Sketch the curves and identify the region bounded by
 

Sketch the curves and identify the region bounded by
 

IIT 1991
1003

Consider the following linear equations
ax + by + cz = 0
bx + cy + az = 0
cx + ay + bz = 0
Match the statements/expressions in column 1 with column 2

Column 1

Column2

i. a + b + c ≠ 0 and a2 + b2 + c2 = ab + bc + ca

A. Equations represent planes meeting at only one single point

ii. a + b + c = 0 and a2 + b2 + c2 ≠ ab + bc + ca

B. The equations represent the line x = y = z

iii. a + b + c ≠ 0 and a2 + b2 + c2 ≠ ab + bc + ca

C. The equations represent identical planes

iv. a + b + c = 0 and a2 + b2 + c2 = ab + bc + ca

D.The equations represent the whole of the three dimensional space

Consider the following linear equations
ax + by + cz = 0
bx + cy + az = 0
cx + ay + bz = 0
Match the statements/expressions in column 1 with column 2

Column 1

Column2

i. a + b + c ≠ 0 and a2 + b2 + c2 = ab + bc + ca

A. Equations represent planes meeting at only one single point

ii. a + b + c = 0 and a2 + b2 + c2 ≠ ab + bc + ca

B. The equations represent the line x = y = z

iii. a + b + c ≠ 0 and a2 + b2 + c2 ≠ ab + bc + ca

C. The equations represent identical planes

iv. a + b + c = 0 and a2 + b2 + c2 = ab + bc + ca

D.The equations represent the whole of the three dimensional space

IIT 2007
1004

The domain of the function y(x) given by the equation  is

a) 0 < x ≤ 1

b) 0 ≤ x ≤ 1

c)  < x ≤ 0

d)  < x < 1

The domain of the function y(x) given by the equation  is

a) 0 < x ≤ 1

b) 0 ≤ x ≤ 1

c)  < x ≤ 0

d)  < x < 1

IIT 2000
1005

If A = , 6A-1 = A2 + cA + dI

then (c, d ) is

a) (−11, 6)

b) (−6, 11)

c)  (6, 11 )

d)  (11, 6 )

If A = , 6A-1 = A2 + cA + dI

then (c, d ) is

a) (−11, 6)

b) (−6, 11)

c)  (6, 11 )

d)  (11, 6 )

IIT 2005
1006

Prove that

Prove that

IIT 1997
1007

Tangent at a point P1 (other than (10, 0)) on the curve y = x3 meets the curve again at P2. The tangent at P2 meets the curve at P3 and so on. Show that the abscissae of P1, P2, P3, .  .  . , Pn form a Geometric Progression. Also find the ratio .

a) 32

b) 16

c)

d)

Tangent at a point P1 (other than (10, 0)) on the curve y = x3 meets the curve again at P2. The tangent at P2 meets the curve at P3 and so on. Show that the abscissae of P1, P2, P3, .  .  . , Pn form a Geometric Progression. Also find the ratio .

a) 32

b) 16

c)

d)

IIT 1993
1008

In what ratio does the X–axis divide the area of the region bounded by the parabolas y = 4x – x2 and y = x2 – x

a) 1:4

b) 21:1

c) 21:4

d) 3:4

In what ratio does the X–axis divide the area of the region bounded by the parabolas y = 4x – x2 and y = x2 – x

a) 1:4

b) 21:1

c) 21:4

d) 3:4

IIT 1994
1009

Let C1 and C2, be respectively, the parabolas  and  . Let P be any point on C1 and Q be any point on C2. Let P1 and Q1 be the reflections of P and Q respectively with respect to y = x . Prove that P1 lies on C2 and Q1 lies on C1 and  . Hence or otherwise determine points P2 and Q2 on the parabolas C1 and C2 respectively such that  for all points (P, Q) with P on C1 and Q on C2 .

Let C1 and C2, be respectively, the parabolas  and  . Let P be any point on C1 and Q be any point on C2. Let P1 and Q1 be the reflections of P and Q respectively with respect to y = x . Prove that P1 lies on C2 and Q1 lies on C1 and  . Hence or otherwise determine points P2 and Q2 on the parabolas C1 and C2 respectively such that  for all points (P, Q) with P on C1 and Q on C2 .

IIT 2000
1010

Suppose , , are the vertices of an equilateral triangle inscribed in the circle  = 2. If = 1 + i, then find  and .

a)

b)

c)

d) None of the above

Suppose , , are the vertices of an equilateral triangle inscribed in the circle  = 2. If = 1 + i, then find  and .

a)

b)

c)

d) None of the above

IIT 1994
1011

A curve y = f(x) passes through the point P:(1, 1). The equation to the normal at (1, 1) to the curve y = f(x) is (x – 1) + a(y – 1)  = 0 and the slope of the tangent at any point on the curve is proportional to the ordinate of the point. Determine the equation of the curve. Also obtain the area bounded by the Y–axis, the curve and the normal at P.

a)

b) y = ;

c)  ;

d)

A curve y = f(x) passes through the point P:(1, 1). The equation to the normal at (1, 1) to the curve y = f(x) is (x – 1) + a(y – 1)  = 0 and the slope of the tangent at any point on the curve is proportional to the ordinate of the point. Determine the equation of the curve. Also obtain the area bounded by the Y–axis, the curve and the normal at P.

a)

b) y = ;

c)  ;

d)

IIT 1996
1012

Consider the circle x2 + y2 = 9 and the parabola y2 = 8x. They intersect P and Q in the first and fourth quadrants respectively. Tangents to the circle at P and Q intersect the X–axis at R and tangents to the parabola at P and Q intersect the X- axis at S. The ratio of areas of the triangle PQS and PQR is

a)

b) 1:2

c)

d) 1:8

Consider the circle x2 + y2 = 9 and the parabola y2 = 8x. They intersect P and Q in the first and fourth quadrants respectively. Tangents to the circle at P and Q intersect the X–axis at R and tangents to the parabola at P and Q intersect the X- axis at S. The ratio of areas of the triangle PQS and PQR is

a)

b) 1:2

c)

d) 1:8

IIT 2007
1013

Let a + b = 4 where a < 2 and let g(x) be a differentiable function. If  for all x, prove that  increases as (b – a) increases.

Let a + b = 4 where a < 2 and let g(x) be a differentiable function. If  for all x, prove that  increases as (b – a) increases.

IIT 1997
1014

A and B are two separate reservoirs of water. Capacity of reservoir A is double the capacity of reservoir B. Both the reservoirs are filled completely with water, their inlets are closed and then water is released simultaneously from both the reservoirs. The rate of flow of water out of each reservoir at any instant of time is proportionate to the quantity of water in the reservoir at the time. One hour after the water is released the quantity of water in reservoir A is   times the quantity of water in reservoir B. After how many hours do both the reservoirs have the same quantity of water?

a)

b)

c) ln2

d)  

A and B are two separate reservoirs of water. Capacity of reservoir A is double the capacity of reservoir B. Both the reservoirs are filled completely with water, their inlets are closed and then water is released simultaneously from both the reservoirs. The rate of flow of water out of each reservoir at any instant of time is proportionate to the quantity of water in the reservoir at the time. One hour after the water is released the quantity of water in reservoir A is   times the quantity of water in reservoir B. After how many hours do both the reservoirs have the same quantity of water?

a)

b)

c) ln2

d)  

IIT 1997
1015

The area of the quadrilateral formed by the tangents at the end points of latus rectum to the ellipse  is

a)  square units

b)

c)  square units

d) 27 square units

The area of the quadrilateral formed by the tangents at the end points of latus rectum to the ellipse  is

a)  square units

b)

c)  square units

d) 27 square units

IIT 2003
1016

The function f(x) = |px – q|+ r|x|, x  when p > 0, q > 0, r > 0 assumes minimum value only on one point if

a)  p ≠ q

b)  r ≠ q

c)  r ≠ p

d)  p = q = r

The function f(x) = |px – q|+ r|x|, x  when p > 0, q > 0, r > 0 assumes minimum value only on one point if

a)  p ≠ q

b)  r ≠ q

c)  r ≠ p

d)  p = q = r

IIT 1995
1017

Let b ≠ 0 and j = 0, 1, 2, .  .  . , n. Let Sj be the area of the region bounded by Y–axis and the curve
.

Show that S0, S1, S2, .  .  .  , Sn are in geometric progression. Also find the sum for a = − 1 and b = π.

a)

b)

c)

d)

Let b ≠ 0 and j = 0, 1, 2, .  .  . , n. Let Sj be the area of the region bounded by Y–axis and the curve
.

Show that S0, S1, S2, .  .  .  , Sn are in geometric progression. Also find the sum for a = − 1 and b = π.

a)

b)

c)

d)

IIT 2001
1018

A tangent to the ellipse x2 + 4y2 = 4 meets the ellipse x2 + 2y2 = 6 at P and Q. Prove that tangents at P and Q of the ellipse x2 + 2y2 = 6 are at right angles.

A tangent to the ellipse x2 + 4y2 = 4 meets the ellipse x2 + 2y2 = 6 at P and Q. Prove that tangents at P and Q of the ellipse x2 + 2y2 = 6 are at right angles.

IIT 1997
1019

Let f(θ) = sinθ (sinθ + sin3θ) then f(θ)

a) ≥ 0 only when θ ≥ 0

b)  ≤ 0 for all real θ

c)  ≥ 0 for all real θ

d) ≤ θ only when θ ≤ 0

Let f(θ) = sinθ (sinθ + sin3θ) then f(θ)

a) ≥ 0 only when θ ≥ 0

b)  ≤ 0 for all real θ

c)  ≥ 0 for all real θ

d) ≤ θ only when θ ≤ 0

IIT 2000
1020

Let y = f(x) is a cubic polynomial having maximum at x = − 1 and  has a minimum at x = 1 and f(−1) = 10, f(1) = − 6. Find the cubic polynomial and also find the distance between the points which are maxima or minima.

a)

b)

c)

d)

Let y = f(x) is a cubic polynomial having maximum at x = − 1 and  has a minimum at x = 1 and f(−1) = 10, f(1) = − 6. Find the cubic polynomial and also find the distance between the points which are maxima or minima.

a)

b)

c)

d)

IIT 2005
1021

Each of the following four inequalities given below define a region in the XY–plane. One of these four regions does not have the following property: For any two points (x1, y1) and (x2, y2) in the region, point  is also in the region. The inequality defining the region that does not have this property is

a) x2 + 2y2 ≤ 1

b) max (|x|, |y|) ≤ 1

c) x2 – y2 ≥ 1

d) y2 – x ≤ 0

Each of the following four inequalities given below define a region in the XY–plane. One of these four regions does not have the following property: For any two points (x1, y1) and (x2, y2) in the region, point  is also in the region. The inequality defining the region that does not have this property is

a) x2 + 2y2 ≤ 1

b) max (|x|, |y|) ≤ 1

c) x2 – y2 ≥ 1

d) y2 – x ≤ 0

IIT 1981
1022

The domain of definition of the function           is

a)  

b)  

c)  

d)  

The domain of definition of the function           is

a)  

b)  

c)  

d)  

IIT 2002
1023

The set of values of x which ln(1 + x) ≤ x is equal to .  .  .  .

a) (−∞, −1)

b) (−1, 0)

c) (0, 1)

d) (1, ∞)

The set of values of x which ln(1 + x) ≤ x is equal to .  .  .  .

a) (−∞, −1)

b) (−1, 0)

c) (0, 1)

d) (1, ∞)

IIT 1987
1024

For any positive integers m, n (with n ≥ m), we are given that
  
Deduce that
  

For any positive integers m, n (with n ≥ m), we are given that
  
Deduce that
  

IIT 2000
1025

If A and B are two independent events such that P (A) > 0 and P (B) ≠ 1 then  is equal to

a)

b)

c)

d)

If A and B are two independent events such that P (A) > 0 and P (B) ≠ 1 then  is equal to

a)

b)

c)

d)

IIT 1980

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