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1201

 

 

IIT 1978
1202

Let f:[0, 1] → ℝ (the set all real numbers)be a function. Suppose the function is twice differentiable, f(0) = f(1) = 0 and satisfiesf′′(x) – 2f′(x) + f(x) ≥ ex, x ∈ [0, 1]Which of the following is true?

a) f(x)<

b) 12<f(x)<12

c) 14<f(x)<1

d) <f(x)<0

Let f:[0, 1] → ℝ (the set all real numbers)be a function. Suppose the function is twice differentiable, f(0) = f(1) = 0 and satisfiesf′′(x) – 2f′(x) + f(x) ≥ ex, x ∈ [0, 1]Which of the following is true?

a) f(x)<

b) 12<f(x)<12

c) 14<f(x)<1

d) <f(x)<0

IIT 2013
1203

If ω(≠1) is a cube root of unity and  then A and B are respectively

a) 0, 1

b) 1, 1

c) 1, 0

d) – 1, 1

If ω(≠1) is a cube root of unity and  then A and B are respectively

a) 0, 1

b) 1, 1

c) 1, 0

d) – 1, 1

IIT 1995
1204

If (1 + x)n = C0 + C1x + C2x2 + .  .  . + Cnxn, then show that the sum of the products of the Cj’s is taken two at a time represented by
 is equal to

If (1 + x)n = C0 + C1x + C2x2 + .  .  . + Cnxn, then show that the sum of the products of the Cj’s is taken two at a time represented by
 is equal to

IIT 1983
1205

Let a, b, c and d be non-zero real numbers. If the point of intersection of lines 4ax + 2ay + c = 0 and 5bx + 2by + d = 0 lie in the fourth quadrants and is equidistant from the two axes, then

a) 2bc – 3ad = 0

b) 2bc + 3ad = 0

c) 2ad – 3bc = 0

d) 3bc + 2ad = 0

Let a, b, c and d be non-zero real numbers. If the point of intersection of lines 4ax + 2ay + c = 0 and 5bx + 2by + d = 0 lie in the fourth quadrants and is equidistant from the two axes, then

a) 2bc – 3ad = 0

b) 2bc + 3ad = 0

c) 2ad – 3bc = 0

d) 3bc + 2ad = 0

IIT 2014
1206

One or more than one correct option

Let α, λ, μ ∈ ℝ. Consider the system of linear equations αx + 2y = λ 3x – 2y = μWhich of the following statements is/are correct?

a) If α = −3, then the system has infinitely many solutions for all values of λ and μ

b) If α ≠ −3, then the system of equations has a unique solution for all values of λ and μ

c) If λ + μ = 0, then the system has infinitely many solutions for α = −3

d) If λ + μ ≠ 0, then the system has no solution for α = −3

One or more than one correct option

Let α, λ, μ ∈ ℝ. Consider the system of linear equations αx + 2y = λ 3x – 2y = μWhich of the following statements is/are correct?

a) If α = −3, then the system has infinitely many solutions for all values of λ and μ

b) If α ≠ −3, then the system of equations has a unique solution for all values of λ and μ

c) If λ + μ = 0, then the system has infinitely many solutions for α = −3

d) If λ + μ ≠ 0, then the system has no solution for α = −3

IIT 2016
1207

Let  and f = R – [R] where [ ] denotes the greatest integer function. Prove that Rf = 42n + 4

Let  and f = R – [R] where [ ] denotes the greatest integer function. Prove that Rf = 42n + 4

IIT 1988
1208

One or more than one correct option

Circle(s) touching X – axis at a distance 3 from the origin and having an intercept of length 27

on Y – axis is/are

a) x2 + y2 – 6x + 8y + 9 = 0

b) x2 + y2 – 6x + 7y + 9 = 0

c) x2 + y2 – 6x − 8y + 9 = 0

d) x2 + y2 – 6x − 7y + 9 = 0

One or more than one correct option

Circle(s) touching X – axis at a distance 3 from the origin and having an intercept of length 27

on Y – axis is/are

a) x2 + y2 – 6x + 8y + 9 = 0

b) x2 + y2 – 6x + 7y + 9 = 0

c) x2 + y2 – 6x − 8y + 9 = 0

d) x2 + y2 – 6x − 7y + 9 = 0

IIT 2013
1209

Using induction or otherwise, prove that for any non-negative integers m, n, r and k
 

Using induction or otherwise, prove that for any non-negative integers m, n, r and k
 

IIT 1991
1210

Let V be the volume of the parallelepiped formed by the vectors  and . If ar, br, cr where r = 1, 2, 3 are non-negative real numbers and , show that V ≤ L3

Let V be the volume of the parallelepiped formed by the vectors  and . If ar, br, cr where r = 1, 2, 3 are non-negative real numbers and , show that V ≤ L3

IIT 2002
1211

One or more than one correct option

A circle S passes through the point (0, 1) and is orthogonal to the circles (x – 1)2 + y2 = 16 and x2 + y2 = 1, then

a) Radius of S is 8

b) Radius of S is 7

c) Centre of S is (−7, 1)

d) Centre of S is (−8, 1)

One or more than one correct option

A circle S passes through the point (0, 1) and is orthogonal to the circles (x – 1)2 + y2 = 16 and x2 + y2 = 1, then

a) Radius of S is 8

b) Radius of S is 7

c) Centre of S is (−7, 1)

d) Centre of S is (−8, 1)

IIT 2014
1212

If  are three non-coplanar unit vectors and α, β, γ are the angles between  , v and w, w and u respectively and x, y and z are unit vectors along the bisector of the angles α, β, γ respectively. Prove that
  

If  are three non-coplanar unit vectors and α, β, γ are the angles between  , v and w, w and u respectively and x, y and z are unit vectors along the bisector of the angles α, β, γ respectively. Prove that
  

IIT 2003
1213

For how many values of p, the circlex2 + y2 + 2x + 4y – p = 0 and the coordinate axis have exactly three common points

a) 0

b) 1

c) 2

d) 3

For how many values of p, the circlex2 + y2 + 2x + 4y – p = 0 and the coordinate axis have exactly three common points

a) 0

b) 1

c) 2

d) 3

IIT 2014
1214

A tangent PT is drawn to the circle x2 + y2 = 4 at the point P(3,1)

. A straight line L, perpendicular to PT is tangent to the circle (x – 3)2 + y2 = 1A common tangent to the circles is

a) x = 4

b) y = 2

c) x+3y=4

d) x+22y=6

A tangent PT is drawn to the circle x2 + y2 = 4 at the point P(3,1)

. A straight line L, perpendicular to PT is tangent to the circle (x – 3)2 + y2 = 1A common tangent to the circles is

a) x = 4

b) y = 2

c) x+3y=4

d) x+22y=6

IIT 2012
1215

The integer n, for which  is a finite

non–zero number is

a) 1

b) 2

c) 3

d) 4

The integer n, for which  is a finite

non–zero number is

a) 1

b) 2

c) 3

d) 4

IIT 2002
1216

The locus of the middle points of the chord of tangents drawn from points lying on the straight line 4x – 5y = 20 to the circle x2 + y2 = 9 is

a) 20(x2 + y2) – 36x + 45y = 0

b) 20(x2 + y2) + 36x − 45y = 0

c) 36(x2 + y2) – 20x + 45y = 0

d) 36(x2 + y2) + 20x − 45y = 0

The locus of the middle points of the chord of tangents drawn from points lying on the straight line 4x – 5y = 20 to the circle x2 + y2 = 9 is

a) 20(x2 + y2) – 36x + 45y = 0

b) 20(x2 + y2) + 36x − 45y = 0

c) 36(x2 + y2) – 20x + 45y = 0

d) 36(x2 + y2) + 20x − 45y = 0

IIT 2012
1217

Let  be a regular hexagon in a circle of unit radius. Then the product of the length of the segments  ,  and  is

a)

b)

c) 3

d)

Let  be a regular hexagon in a circle of unit radius. Then the product of the length of the segments  ,  and  is

a)

b)

c) 3

d)

IIT 1998
1218

f(x) is twice differentiable polynomial function such that f (1) = 1, f (2) = 4, f (3) = 9, then

a) there exists at least one x  (1, 2) such that

b) there exists at least one x  (2, 3) such that

  

c)

d) there exists at least one x  (1, 3) such that

f(x) is twice differentiable polynomial function such that f (1) = 1, f (2) = 4, f (3) = 9, then

a) there exists at least one x  (1, 2) such that

b) there exists at least one x  (2, 3) such that

  

c)

d) there exists at least one x  (1, 3) such that

IIT 2005
1219

The radius of a circle having minimum area which touches the curve y = 4 – x2 and the line y = |x| is

a) 22

b) 2(21)

c) 4(21)

d) 4(2+1)

The radius of a circle having minimum area which touches the curve y = 4 – x2 and the line y = |x| is

a) 22

b) 2(21)

c) 4(21)

d) 4(2+1)

IIT 2017
1220

Let AB be a chord of the circle subtending a right angle at the centre then the locus of the centroid of the triangle PAB as P moves on the circle is

a) A parabola

b) A circle

c) An ellipse

d) A pairing straight line

Let AB be a chord of the circle subtending a right angle at the centre then the locus of the centroid of the triangle PAB as P moves on the circle is

a) A parabola

b) A circle

c) An ellipse

d) A pairing straight line

IIT 2000
1221

Given a circle 2x2 + 2y2 = 5 and a parabola y2=45x

Statement 1: An equation of a common tangent to the curves is y=x+5 Statement 2: If the line y=mx+5m(m0) is the common tangent then m satisfies m4 – 3m2 + 2 = 0

a) Statement 1 is correct. Statement 2 is correct. Statement 2 is a correct explanation for statement 1

b) Statement 1 is correct. Statement 2 is correct. Statement 2 is not a correct explanation for statement 1

c) Statement 1 is correct. Statement 2 is incorrect.

d) Statement 1 is incorrect. Statement 2 is correct.

Given a circle 2x2 + 2y2 = 5 and a parabola y2=45x

Statement 1: An equation of a common tangent to the curves is y=x+5 Statement 2: If the line y=mx+5m(m0) is the common tangent then m satisfies m4 – 3m2 + 2 = 0

a) Statement 1 is correct. Statement 2 is correct. Statement 2 is a correct explanation for statement 1

b) Statement 1 is correct. Statement 2 is correct. Statement 2 is not a correct explanation for statement 1

c) Statement 1 is correct. Statement 2 is incorrect.

d) Statement 1 is incorrect. Statement 2 is correct.

IIT 2013
1222

One or more than one correct option

Let L be a normal to the parabola y2 = 4x. If L passes through the point (9, 6) then L is given by

a) y – x + 3 = 0

b) y + 3x – 33 = 0

c) y + x – 15 = 0

d) y – 2x + 12 = 0

One or more than one correct option

Let L be a normal to the parabola y2 = 4x. If L passes through the point (9, 6) then L is given by

a) y – x + 3 = 0

b) y + 3x – 33 = 0

c) y + x – 15 = 0

d) y – 2x + 12 = 0

IIT 2011
1223

Let ABCD be a quadrilateral with area 18 with side AB parallel to CD and AB = 2CD. Let AD be perpendicular to AB and CD. A circle is drawn inside the quadrilateral ABCD touching all the sides, then its radius is

a) 3

b) 2

c)

d) 1

Let ABCD be a quadrilateral with area 18 with side AB parallel to CD and AB = 2CD. Let AD be perpendicular to AB and CD. A circle is drawn inside the quadrilateral ABCD touching all the sides, then its radius is

a) 3

b) 2

c)

d) 1

IIT 2007
1224

Multiple choices

The function f (x) = max  is

a) continuous at all points

b) differentiable at all points

c) differentiable at all points except x = 1 and x =

d) continuous at all points except at x=1 and x=-1 where it is discontinuous

Multiple choices

The function f (x) = max  is

a) continuous at all points

b) differentiable at all points

c) differentiable at all points except x = 1 and x =

d) continuous at all points except at x=1 and x=-1 where it is discontinuous

IIT 1995
1225

Find the equation of the circle passing through ( 4, 3) and touching the lines x + y = 4 and .

Find the equation of the circle passing through ( 4, 3) and touching the lines x + y = 4 and .

IIT 1982

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