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1001

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
1002

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
1003

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
1004

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
1005

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
1006

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
1007

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
1008

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
1009

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
1010

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
1011

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
1012

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
1013

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
1014

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
1015

A circle touches the line y = x at a point P such that  , where O is the origin. The circle contains the point  in its interior and the length of its chord on the line  is  . Determine its equation.

A circle touches the line y = x at a point P such that  , where O is the origin. The circle contains the point  in its interior and the length of its chord on the line  is  . Determine its equation.

IIT 1990
1016

 

a)

b)

c)

d)

 

a)

b)

c)

d)

IIT 2005
1017

 equals

a)

b)

c)

d)

 equals

a)

b)

c)

d)

IIT 1997
1018

Let g (x) be a polynomial of degree one and f (x) be defined by

Find the continuous function f (x) satisfying

a)

b)  

c)

d) None of the above

Let g (x) be a polynomial of degree one and f (x) be defined by

Find the continuous function f (x) satisfying

a)

b)  

c)

d) None of the above

IIT 1987
1019

In how many ways can a pack of 52 cards be divided equally amongst 4 players in order?

In how many ways can a pack of 52 cards be divided equally amongst 4 players in order?

IIT 1979
1020

Find the interval in which ‘a’ lies for which the line y + x = 0 bisects the chord drawn from the point  to the circle

Find the interval in which ‘a’ lies for which the line y + x = 0 bisects the chord drawn from the point  to the circle

IIT 1996
1021

The points on the curve   where the tangent is vertical, is (are)

a)

b)

c)

d)

The points on the curve   where the tangent is vertical, is (are)

a)

b)

c)

d)

IIT 2002
1022

Let T1, T2 be two tangents drawn from (−2, 0) onto the circle C: x2 + y2 = 1. Determine the circle touching C and having T1, T2 as their pair of tangents. Further find the equation of all possible common tangents to the circles, when taken two at a time.

Let T1, T2 be two tangents drawn from (−2, 0) onto the circle C: x2 + y2 = 1. Determine the circle touching C and having T1, T2 as their pair of tangents. Further find the equation of all possible common tangents to the circles, when taken two at a time.

IIT 1999
1023

Let  for all real x and y. If   exists and  then find f(2)

a) – 1

b) 0

c) 1

d) 2

Let  for all real x and y. If   exists and  then find f(2)

a) – 1

b) 0

c) 1

d) 2

IIT 1995
1024

Let  and  where  are continuous functions. If A(t) and B(t) are non-zero vectors for all t and

A(0) =

 

then A(t) and b(t) are parallel for some t.

a) True

b) False

Let  and  where  are continuous functions. If A(t) and B(t) are non-zero vectors for all t and

A(0) =

 

then A(t) and b(t) are parallel for some t.

a) True

b) False

IIT 2001
1025

Let n be any positive integer. Prove that
For each non negative integer m ≤ n

Let n be any positive integer. Prove that
For each non negative integer m ≤ n

IIT 1999

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