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1201

Let f : ℝ → ℝ be any function. Define g : ℝ → ℝ by g (x) = |f (x)| for all x. Then g is

a) Onto if f is onto

b) One to one if f is one to one

c) Continuous if f is continuous

d) Differentiable if f is differentiable

Let f : ℝ → ℝ be any function. Define g : ℝ → ℝ by g (x) = |f (x)| for all x. Then g is

a) Onto if f is onto

b) One to one if f is one to one

c) Continuous if f is continuous

d) Differentiable if f is differentiable

IIT 2000
1202

Evaluate

a)

b)

c)

d)

Evaluate

a)

b)

c)

d)

IIT 1993
1203

One or more than one correct option

The circle C1 : x2 + y2 = 3 with centre at O intersect the parabola x2 = 2y at the point P in the first quadrant. Let the tangent to the circle C1 at P touches other two circles C2 and C3 at R2 and R3 respectively. Suppose C2 and C3 have equal radii 23

and centres Q2 and Q3 respectively. If Q2 and Q3 lie on the Y- axis, then

a) Q2Q3=12

b) R2R3=46

c) areaof2R3isR2

d) areaofPQ2Q3is42

One or more than one correct option

The circle C1 : x2 + y2 = 3 with centre at O intersect the parabola x2 = 2y at the point P in the first quadrant. Let the tangent to the circle C1 at P touches other two circles C2 and C3 at R2 and R3 respectively. Suppose C2 and C3 have equal radii 23

and centres Q2 and Q3 respectively. If Q2 and Q3 lie on the Y- axis, then

a) Q2Q3=12

b) R2R3=46

c) areaof2R3isR2

d) areaofPQ2Q3is42

IIT 2016
1204

Let f : ℝ → ℝ be a function defined by f (x) =  . The set of points where f (x) is not differentiable is

a) }

b)

c) {0, 1}

d)

Let f : ℝ → ℝ be a function defined by f (x) =  . The set of points where f (x) is not differentiable is

a) }

b)

c) {0, 1}

d)

IIT 2001
1205

The circle passing through the point (−1, 0) and touching the Y – axis at (0, 2) also passes through the point

a) (32,0)

b) (52,0)

c) (32,52)

d) (4,0)

The circle passing through the point (−1, 0) and touching the Y – axis at (0, 2) also passes through the point

a) (32,0)

b) (52,0)

c) (32,52)

d) (4,0)

IIT 2011
1206

Let a, b, c be positive real numbers such that b2 – 4ac > 0 and let α1 = c. Prove by induction that
 

Is well defined and  for n=1, 2, …

Here well defined means that the denominator in the expression of  is not zero.

Let a, b, c be positive real numbers such that b2 – 4ac > 0 and let α1 = c. Prove by induction that
 

Is well defined and  for n=1, 2, …

Here well defined means that the denominator in the expression of  is not zero.

IIT 2001
1207

Let O be the vertex and Q be any point on the parabola x2 = 8y. If the point P divides the line segment OQ^

internally in the ratio 1 : 3 then the locus of P is

a) x2 = y

b) y2 = x

c) y2 = 2x

d) x2 = 2y

Let O be the vertex and Q be any point on the parabola x2 = 8y. If the point P divides the line segment OQ^

internally in the ratio 1 : 3 then the locus of P is

a) x2 = y

b) y2 = x

c) y2 = 2x

d) x2 = 2y

IIT 2015
1208

Solve the following equation for x
 

a) −1

b)

c) 0

d) −1 and

Solve the following equation for x
 

a) −1

b)

c) 0

d) −1 and

IIT 1978
1209

If f is a differentiable function satisfying  for all n ≥ 1,

n  I then

a)

b)

c)

d)  is not necessarily zero

If f is a differentiable function satisfying  for all n ≥ 1,

n  I then

a)

b)

c)

d)  is not necessarily zero

IIT 2005
1210

Evaluate

Evaluate

IIT 2005
1211

Let S be the focus of the parabola y2 = 8x and PQ be the common chord of the circle x2 + y2 – 2x – 4y = 0 and the given parabola. The area of △QPS is

a) 2 sq. units

b) 4 sq. units

c) 6 sq. units

d) 8 sq. units

Let S be the focus of the parabola y2 = 8x and PQ be the common chord of the circle x2 + y2 – 2x – 4y = 0 and the given parabola. The area of △QPS is

a) 2 sq. units

b) 4 sq. units

c) 6 sq. units

d) 8 sq. units

IIT 2012
1212

Multiple choices

The function f (x) = 1 + |sinx| is

a) continuous nowhere

b) continuous everywhere

c) differentiable nowhere

d) not differentiable at x = 0

e) not differentiable at infinite number of points

Multiple choices

The function f (x) = 1 + |sinx| is

a) continuous nowhere

b) continuous everywhere

c) differentiable nowhere

d) not differentiable at x = 0

e) not differentiable at infinite number of points

IIT 1986
1213

Let a, r, s, t be non-zero real numbers. Let P(at2, 2at), Q, R(ar2, 2ar and S(as2, 2as) be distinct points on the parabola y2 = 4ax. Suppose PQ is the focal chord and QR and PK are parallel, where K is point (2a, 0)If st = 1 then the tangent at P and normal at S to the parabola meet at a point whose ordinate is

a) (t2+1)22t3

b) a(t2+1)22t3

c) a(t2+1)2r3

d) a(t2+2)2r3

Let a, r, s, t be non-zero real numbers. Let P(at2, 2at), Q, R(ar2, 2ar and S(as2, 2as) be distinct points on the parabola y2 = 4ax. Suppose PQ is the focal chord and QR and PK are parallel, where K is point (2a, 0)If st = 1 then the tangent at P and normal at S to the parabola meet at a point whose ordinate is

a) (t2+1)22t3

b) a(t2+1)22t3

c) a(t2+1)2r3

d) a(t2+2)2r3

IIT 2014
1214

The tangent PT and the normal PN of the parabola y2 = 4ax at the point P on it meet its axis at the points T and N respectively. The locus of the centroid of the triangle PTM is a parabola whose

a) Vertex is (2a3,0)

b) Directrix is x = 0

c) Latus rectum is 2a3

d) Focus is (a, 0)

The tangent PT and the normal PN of the parabola y2 = 4ax at the point P on it meet its axis at the points T and N respectively. The locus of the centroid of the triangle PTM is a parabola whose

a) Vertex is (2a3,0)

b) Directrix is x = 0

c) Latus rectum is 2a3

d) Focus is (a, 0)

IIT 2009
1215

Let f and g be increasing and decreasing functions, respectively from [0, ∞) to [0, ∞). Let h(x) =f(g(x)). If h(0) = 0 then h(x) – h(t) is

a) Always zero

b) Always negative

c) Always positive

d) Strictly increasing

e) None of these

Let f and g be increasing and decreasing functions, respectively from [0, ∞) to [0, ∞). Let h(x) =f(g(x)). If h(0) = 0 then h(x) – h(t) is

a) Always zero

b) Always negative

c) Always positive

d) Strictly increasing

e) None of these

IIT 1988
1216

Let E = {1, 2, 3, 4} and F = {1, 2} then the number of onto functions from E to F is

a) 14

b) 16

c) 12

d) 8

Let E = {1, 2, 3, 4} and F = {1, 2} then the number of onto functions from E to F is

a) 14

b) 16

c) 12

d) 8

IIT 2001
1217

On the interval [0, 1] the function  takes the maximum value at the point

a) 0

b)

c)

d)

On the interval [0, 1] the function  takes the maximum value at the point

a) 0

b)

c)

d)

IIT 1995
1218

Let f (x) be continuous and g (x) be a discontinuous function. Prove that f (x) + g (x) is a discontinuous function.

a) True

b) False

c) Could be continuous or discontinuous

Let f (x) be continuous and g (x) be a discontinuous function. Prove that f (x) + g (x) is a discontinuous function.

a) True

b) False

c) Could be continuous or discontinuous

IIT 1987
1219

Find the coordinates of the point at which the circles x2 + y2 – 4x – 2y = – 4 and  x2 + y2 – 12x – 8y = – 36  touch each other. Also find the equation of the common tangents touching the circles at distinct points.

Find the coordinates of the point at which the circles x2 + y2 – 4x – 2y = – 4 and  x2 + y2 – 12x – 8y = – 36  touch each other. Also find the equation of the common tangents touching the circles at distinct points.

IIT 1993
1220

Draw the graph of the function y = [x] + |1 – x|, – 1 ≤ x ≤ 3. Determine the points, if any, where the function is not differentiable.

a) y is differentiable everywhere

b) y is not differentiable at x = 0

c) y is not differentiable at x = 0, 1, 2

d) y is not differentiable at x = 0, 1, 2 and 3

Draw the graph of the function y = [x] + |1 – x|, – 1 ≤ x ≤ 3. Determine the points, if any, where the function is not differentiable.

a) y is differentiable everywhere

b) y is not differentiable at x = 0

c) y is not differentiable at x = 0, 1, 2

d) y is not differentiable at x = 0, 1, 2 and 3

IIT 1989
1221

In how many ways can a pack of 52 cards be divided in 4 sets, three of them having 17 cards each and fourth just one card.

In how many ways can a pack of 52 cards be divided in 4 sets, three of them having 17 cards each and fourth just one card.

IIT 1979
1222

The area bounded by the curves

  and   is

a) 1

b) 2

c)

d) 4

The area bounded by the curves

  and   is

a) 1

b) 2

c)

d) 4

IIT 2002
1223

Let ABC be an equilateral triangle inscribed in the circle x2 + y2 = a2. Suppose perpendiculars from A, B, C to the major axis of the ellipse  (a > b) meet the ellipse respectively at P, Q, R so that P, Q, R are on the same side of the major axis. Prove that the normals drawn at the points P, Q and R are concurrent.

Let ABC be an equilateral triangle inscribed in the circle x2 + y2 = a2. Suppose perpendiculars from A, B, C to the major axis of the ellipse  (a > b) meet the ellipse respectively at P, Q, R so that P, Q, R are on the same side of the major axis. Prove that the normals drawn at the points P, Q and R are concurrent.

IIT 2000
1224

Which of the following pieces of data does not uniquely determine an acute angled triangle ABC (R being the radius of the circumcircle).

a) a, sinA, sinB

b) a, b , c

c) a, sinB, R

d) a, sinA, R

Which of the following pieces of data does not uniquely determine an acute angled triangle ABC (R being the radius of the circumcircle).

a) a, sinA, sinB

b) a, b , c

c) a, sinB, R

d) a, sinA, R

IIT 2002
1225

Let f(x), x ≥ 0 be a non-negative function and let F(x) = . For some c > 0, f(x) ≤ cF(x) for all x ≥ 0. Then for all x ≥ 0, f(x) =

a) 0

b) 1

c) 2

d) 4

Let f(x), x ≥ 0 be a non-negative function and let F(x) = . For some c > 0, f(x) ≤ cF(x) for all x ≥ 0. Then for all x ≥ 0, f(x) =

a) 0

b) 1

c) 2

d) 4

IIT 2001

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