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1201

Let f(x) = [x] where [.] denotes the greatest integer function. Then the domain of f is .  .  .  ., points of discontinuity of f are .  .  .  .

a) ∀ x ε I

b) ∀ x ε I − {0}

c) ∀ x ε I – {0, 1}

d) ∀ x ε I – {0, 1, 2}

Let f(x) = [x] where [.] denotes the greatest integer function. Then the domain of f is .  .  .  ., points of discontinuity of f are .  .  .  .

a) ∀ x ε I

b) ∀ x ε I − {0}

c) ∀ x ε I – {0, 1}

d) ∀ x ε I – {0, 1, 2}

IIT 1996
1202

PQ and PR are two infinite rays, QAR is an arc.

U


Points lying in the shaded region excluding the boundary satisfies

a)   |z + 1| > 2; |arg(z + 1)| <

b)   |z + 1| < 2; |arg(z + 1)| <

c)  

d)  

PQ and PR are two infinite rays, QAR is an arc.

U


Points lying in the shaded region excluding the boundary satisfies

a)   |z + 1| > 2; |arg(z + 1)| <

b)   |z + 1| < 2; |arg(z + 1)| <

c)  

d)  

IIT 2005
1203

If  for all positive x where a > 0 and b > 0 then

a) 9ab2 ≥ 4c3

b) 27ab2 ≥ 4c3

c) 9ab2 ≤ 4c3

d) 27ab2 ≤ 4c3

If  for all positive x where a > 0 and b > 0 then

a) 9ab2 ≥ 4c3

b) 27ab2 ≥ 4c3

c) 9ab2 ≤ 4c3

d) 27ab2 ≤ 4c3

IIT 1989
1204

Let ABCD be a square with side of length 2 units. C2 is the circle through the vertices A, B, C, D and C1 is the circle touching all the sides of the square ABCD. L is a line through A.

If P is a point on C1 and Q is another point on C2, then  is equal to

a) 0.75

b) 1.25

c) 1

d) 0.5

Let ABCD be a square with side of length 2 units. C2 is the circle through the vertices A, B, C, D and C1 is the circle touching all the sides of the square ABCD. L is a line through A.

If P is a point on C1 and Q is another point on C2, then  is equal to

a) 0.75

b) 1.25

c) 1

d) 0.5

IIT 2006
1205

If a continuous function f defined on the real line ℝ, assumes positive and negative values in ℝ then the equation f(x) = 0 has a root in ℝ. For example, it is known that if a continuous function f on ℝ is positive at some points and its minimum value is negative then the equation f(x) = 0 has a root in ℝ. Consider the function f(x) =  for all real x where k is a real constant.

The positive value of k for which  has only one root is

a)

b) 1

c) e

d) ln2

If a continuous function f defined on the real line ℝ, assumes positive and negative values in ℝ then the equation f(x) = 0 has a root in ℝ. For example, it is known that if a continuous function f on ℝ is positive at some points and its minimum value is negative then the equation f(x) = 0 has a root in ℝ. Consider the function f(x) =  for all real x where k is a real constant.

The positive value of k for which  has only one root is

a)

b) 1

c) e

d) ln2

IIT 2007
1206

Let . Find the intervals in which λ should lie in order that f(x) has exactly one minimum and exactly one maximum.

a)

b)

c)

d)

Let . Find the intervals in which λ should lie in order that f(x) has exactly one minimum and exactly one maximum.

a)

b)

c)

d)

IIT 1985
1207

Consider a circle with centre lying on the focus of the parabola  such that it touches the directrix of the parabola. Then a point of intersection of the circle and parabola is

a) or

b)

c)

d)

Consider a circle with centre lying on the focus of the parabola  such that it touches the directrix of the parabola. Then a point of intersection of the circle and parabola is

a) or

b)

c)

d)

IIT 1995
1208

Find the equation of the plane at a distance  from the point  and containing the line
 .

Find the equation of the plane at a distance  from the point  and containing the line
 .

IIT 2005
1209

Let the complex numbers  are vertices of an equilateral triangle. If  be the circumcentre of the triangle, then prove that

Let the complex numbers  are vertices of an equilateral triangle. If  be the circumcentre of the triangle, then prove that

IIT 1981
1210

A two metre long object is fired vertically upwards from the mid-point of two locations A and B, 8 metres apart. The speed of the object after t seconds is given by  metres per second. Let α and β be the angles subtended by the objects A and B respectively after one and two seconds. Find the value of cos(α − β).

a)

b)

c)

d)

A two metre long object is fired vertically upwards from the mid-point of two locations A and B, 8 metres apart. The speed of the object after t seconds is given by  metres per second. Let α and β be the angles subtended by the objects A and B respectively after one and two seconds. Find the value of cos(α − β).

a)

b)

c)

d)

IIT 1989
1211

The point (α, β, γ) lies on the plane .
Let a =  . . . . .

The point (α, β, γ) lies on the plane .
Let a =  . . . . .

IIT 2006
1212

The locus of the mid-point of the line segment joining the focus to a moving point on the parabola y2 = 4ax is another parabola with directrix

a) x = −a

b)

c)

d)

The locus of the mid-point of the line segment joining the focus to a moving point on the parabola y2 = 4ax is another parabola with directrix

a) x = −a

b)

c)

d)

IIT 2002
1213

  

  

IIT 2006
1214

Complex numbers  are the vertices A, B, C respectively of an isosceles right angled triangle with right angle at B. Show that

Complex numbers  are the vertices A, B, C respectively of an isosceles right angled triangle with right angle at B. Show that

IIT 1986
1215

Find all maximum and minimum of the curve y = x(x – 1)2, 0 ≤ x ≤ 2. Also find the area bounded by the curve y = x(x – 2)2, the Y–axis and the line y = 2.

a) Local minimum at x = 1, Local maximum at x = , Area =

b) Local minimum at x = , Local maximum at x =1, Area =

c) Local minimum at x = 2, Local maximum at x = , Area =

d) Local minimum at x = , Local maximum at x =2, Area =

Find all maximum and minimum of the curve y = x(x – 1)2, 0 ≤ x ≤ 2. Also find the area bounded by the curve y = x(x – 2)2, the Y–axis and the line y = 2.

a) Local minimum at x = 1, Local maximum at x = , Area =

b) Local minimum at x = , Local maximum at x =1, Area =

c) Local minimum at x = 2, Local maximum at x = , Area =

d) Local minimum at x = , Local maximum at x =2, Area =

IIT 1989
1216

A line is perpendicular to  and passes through (0, 1, 0). Then the perpendicular distance of this line from the origin is  . . .

A line is perpendicular to  and passes through (0, 1, 0). Then the perpendicular distance of this line from the origin is  . . .

IIT 2006
1217

Prove that for complex numbers z and ω,   iff z = ω or .

Prove that for complex numbers z and ω,   iff z = ω or .

IIT 1999
1218

The curve y = ax3 + bx2 + cx + 5 touches the X – axis at (− 2, 0) and cuts the Y–axis at a point Q where the gradient is 3. Find a, b, c.

a)

b)

c)

d)

The curve y = ax3 + bx2 + cx + 5 touches the X – axis at (− 2, 0) and cuts the Y–axis at a point Q where the gradient is 3. Find a, b, c.

a)

b)

c)

d)

IIT 1994
1219

Points A, B, C lie on the parabola . The tangents to the parabola at A, B, C taken in pair intersect at the points P, Q, R. Determine the ratios of the areas of ΔABC and ΔPQR.

Points A, B, C lie on the parabola . The tangents to the parabola at A, B, C taken in pair intersect at the points P, Q, R. Determine the ratios of the areas of ΔABC and ΔPQR.

IIT 1996
1220

Consider the lines given by L1 : x + 3y – 5 = 0; L2 = 3x – ky – 1 = 0; L3 = 5x + 2y −12 = 0. Match the statement/expressions in column 1 with column 2.

Column 1

Column 2

A. L1, L2, L3 are concurrent, if

p. k = −9

B. One of L1, L2, L3 is parallel to at least one of the other two, if

q.

C. L1, L2, L3 form a triangle, if

r.

D.L1, L2, L3 do not form a triangle, if

s. k = 5

Consider the lines given by L1 : x + 3y – 5 = 0; L2 = 3x – ky – 1 = 0; L3 = 5x + 2y −12 = 0. Match the statement/expressions in column 1 with column 2.

Column 1

Column 2

A. L1, L2, L3 are concurrent, if

p. k = −9

B. One of L1, L2, L3 is parallel to at least one of the other two, if

q.

C. L1, L2, L3 form a triangle, if

r.

D.L1, L2, L3 do not form a triangle, if

s. k = 5

IIT 2008
1221

 is a circle inscribed in a square whose one vertex is . Find the remaining vertices.

a)

b)

c)

d)

 is a circle inscribed in a square whose one vertex is . Find the remaining vertices.

a)

b)

c)

d)

IIT 2005
1222

Let a line passing through the fixed point (h, k) cut the X–axis at P and Y–axis at Q. Then find the minimum area of ΔOPQ.

a) hk

b) h2/k

c) k2/h

d) 2hk

Let a line passing through the fixed point (h, k) cut the X–axis at P and Y–axis at Q. Then find the minimum area of ΔOPQ.

a) hk

b) h2/k

c) k2/h

d) 2hk

IIT 1995
1223

Match the following

Column 1

Column 2

i) Re z = 0

A) Re  = 0

ii) Arg z = π/4

B) Im  = 0

C) Re  = Im

Match the following

Column 1

Column 2

i) Re z = 0

A) Re  = 0

ii) Arg z = π/4

B) Im  = 0

C) Re  = Im

IIT 1992
1224

Let An be the area bounded by the curve y = (tanx)n and the line
x = 0, y = 0 and . Prove that for  . Hence deduce that
 

Let An be the area bounded by the curve y = (tanx)n and the line
x = 0, y = 0 and . Prove that for  . Hence deduce that
 

IIT 1996
1225

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 radius of the incircle of △PQR is

a) 4

b) 3

c)

d) 2

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 radius of the incircle of △PQR is

a) 4

b) 3

c)

d) 2

IIT 2007

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