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1201 |
One or more than one correct option For a > b > c > 0, the distance between (1, 1) and the point of intersection of the lines ax + by + c = 0 and bx + ay + c = 0 is less than , then a) a + b – c > 0 b) a − b + c < 0 c) a − b + c > 0 d) a + b – c < 0
One or more than one correct option For a > b > c > 0, the distance between (1, 1) and the point of intersection of the lines ax + by + c = 0 and bx + ay + c = 0 is less than , then a) a + b – c > 0 b) a − b + c < 0 c) a − b + c > 0 d) a + b – c < 0
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IIT 2014 |
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1202 |
Using mathematical induction, prove that m, n, k are positive integers and for p < q
Using mathematical induction, prove that m, n, k are positive integers and for p < q
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IIT 1989 |
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1203 |
If one of the diameters of the circle, given by the equation x2 + y2 – 4x + 6y – 12 = 0 is a chord of a circle S whose centre is at (−3, 2), then the radius of S is a) b) c) d)
If one of the diameters of the circle, given by the equation x2 + y2 – 4x + 6y – 12 = 0 is a chord of a circle S whose centre is at (−3, 2), then the radius of S is a) b) c) d)
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IIT 2016 |
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1204 |
If for all k ≥ n then show that 
If for all k ≥ n then show that 
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IIT 1992 |
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1205 |
The function (where [y] is the greatest integer less than or equal to y) is discontinuous at a) All integers b) All integers except 0 and 1 c) All integers except 0 d) All integers except 1
The function (where [y] is the greatest integer less than or equal to y) is discontinuous at a) All integers b) All integers except 0 and 1 c) All integers except 0 d) All integers except 1
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IIT 1999 |
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1206 |
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
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IIT 2003 |
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1207 |
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
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IIT 2014 |
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1208 |
A tangent PT is drawn to the circle x2 + y2 = 4 at the point . 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) d)
A tangent PT is drawn to the circle x2 + y2 = 4 at the point . 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) d)
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IIT 2012 |
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1209 |
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
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IIT 2002 |
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1210 |
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
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IIT 2012 |
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1211 |
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) 
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IIT 1998 |
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1212 |
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 
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IIT 2005 |
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1213 |
The radius of a circle having minimum area which touches the curve y = 4 – x2 and the line y = |x| is a) b) c) d)
The radius of a circle having minimum area which touches the curve y = 4 – x2 and the line y = |x| is a) b) c) d)
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IIT 2017 |
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1214 |
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
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IIT 2000 |
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1215 |
Given a circle 2x2 + 2y2 = 5 and a parabola Statement 1: An equation of a common tangent to the curves is Statement 2: If the line 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 Statement 1: An equation of a common tangent to the curves is Statement 2: If the line 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.
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IIT 2013 |
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1216 |
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
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IIT 2011 |
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1217 |
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
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IIT 2007 |
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1218 |
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
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IIT 1995 |
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1219 |
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 .
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IIT 1982 |
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1220 |
Number of divisors of the form 4n + 2(n ≥ 0) of integer 240 is a) 4 b) 8 c) 10 d) 3
Number of divisors of the form 4n + 2(n ≥ 0) of integer 240 is a) 4 b) 8 c) 10 d) 3
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IIT 1998 |
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1221 |
The smallest positive root of the equation tan x – x = 0 lies in a)  b)  c)  d)  e) None of these
The smallest positive root of the equation tan x – x = 0 lies in a)  b)  c)  d)  e) None of these
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IIT 1987 |
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1222 |
Let f (x) be defined on the interval such that g (x) = f (|x|) + |f(x)| Test the differentiability of g (x) in  a) g(x) is differentiable at all x ℝ b) g(x) is differentiable at all x ℝ except at x = 1 c) g(x) is differentiable at all x ℝ except at x = 0, 1 d) g(x) is differentiable at all x ℝ except at x = 0, 1, 2
Let f (x) be defined on the interval such that g (x) = f (|x|) + |f(x)| Test the differentiability of g (x) in  a) g(x) is differentiable at all x ℝ b) g(x) is differentiable at all x ℝ except at x = 1 c) g(x) is differentiable at all x ℝ except at x = 0, 1 d) g(x) is differentiable at all x ℝ except at x = 0, 1, 2
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IIT 1986 |
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1223 |
If the LCM of p, q is where r, s, t are prime numbers and p, q are positive integers then the number of ordered pairs (p, q) is a) 252 b) 254 c) 225 d) 224
If the LCM of p, q is where r, s, t are prime numbers and p, q are positive integers then the number of ordered pairs (p, q) is a) 252 b) 254 c) 225 d) 224
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IIT 2006 |
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1224 |
Consider a family of circles passing through two fixed points A (3, 7) and B (6, 5). Show that the chords in which the circle cuts the members of the family are concurrent at a point. Find the coordinates of this point.
Consider a family of circles passing through two fixed points A (3, 7) and B (6, 5). Show that the chords in which the circle cuts the members of the family are concurrent at a point. Find the coordinates of this point.
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IIT 1993 |
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1225 |
In how many ways can a pack of 52 cards be divided into four groups of 13 cards each.
In how many ways can a pack of 52 cards be divided into four groups of 13 cards each.
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IIT 1979 |
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