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Question(s) from Search: IIT

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1201

Fill in the blank

The value of f (x) =  lies in the interval …………….

a)

b)

c)

d)

Fill in the blank

The value of f (x) =  lies in the interval …………….

a)

b)

c)

d)

IIT 1983
1202

Find the area bounded by the curve x2 = 4y and the straight line
x = 4y – 2.

a) 3/2

b) 3/4

c) 9/4

d) 9/8

Find the area bounded by the curve x2 = 4y and the straight line
x = 4y – 2.

a) 3/2

b) 3/4

c) 9/4

d) 9/8

IIT 1981
1203

If f(x) and g(x) are differentiable functions for 0 ≤ x ≤ 1 such that f(0) = 2, g(0) = 0, f(1) = 6, g(1) = 2 then show that there exists c satisfying 0 < c < 1 and .

a) 0 < c < 1 and

b) 0 < c < 1 and

c) 0 < c < 1 and

d) 0 < c < 1 and

If f(x) and g(x) are differentiable functions for 0 ≤ x ≤ 1 such that f(0) = 2, g(0) = 0, f(1) = 6, g(1) = 2 then show that there exists c satisfying 0 < c < 1 and .

a) 0 < c < 1 and

b) 0 < c < 1 and

c) 0 < c < 1 and

d) 0 < c < 1 and

IIT 1982
1204

Let a > 0, b > 0, c > 0 then both the roots of the equation  

a) are real and positive

b) have negative real parts

c) have positive real parts

d) none of these

Let a > 0, b > 0, c > 0 then both the roots of the equation  

a) are real and positive

b) have negative real parts

c) have positive real parts

d) none of these

IIT 1979
1205

If f(x) is a continuous function defined for 1 ≤ x ≤ 3. If f(x) takes rational values for all x and f(2) = 10 then f(1.5) = .  .  .  .

a) 2

b) 5

c) 10

d) 20

If f(x) is a continuous function defined for 1 ≤ x ≤ 3. If f(x) takes rational values for all x and f(2) = 10 then f(1.5) = .  .  .  .

a) 2

b) 5

c) 10

d) 20

IIT 1997
1206

If x, y, z are real and distinct then  is always

a) Non – negative

b) Non – positive

c) Zero

d) None of these

If x, y, z are real and distinct then  is always

a) Non – negative

b) Non – positive

c) Zero

d) None of these

IIT 2005
1207

Match the following
Let [x] denote the greatest integer less than or equal to x

Column 1

Column 2

i) x|x|

A)continuous in

ii)

B)Differentiable in

iii) x + [x]

C)Steadily increasing in

iv) |x – 1| + |x + 1|

D) Not differentiable at least at one point in

a) (i)→ A, B, C, (ii)→ A, D, (iii)→ C, D, (iv)→ A, B

b) (i)→ A, (ii)→ A, (iii)→ C, (iv)→ B

c) (i)→ B, (ii)→ D, (iii)→ C, (iv)→ A

d) (i)→ A, B, (ii)→ A, D, (iii)→ C, D, (iv)→ B

Match the following
Let [x] denote the greatest integer less than or equal to x

Column 1

Column 2

i) x|x|

A)continuous in

ii)

B)Differentiable in

iii) x + [x]

C)Steadily increasing in

iv) |x – 1| + |x + 1|

D) Not differentiable at least at one point in

a) (i)→ A, B, C, (ii)→ A, D, (iii)→ C, D, (iv)→ A, B

b) (i)→ A, (ii)→ A, (iii)→ C, (iv)→ B

c) (i)→ B, (ii)→ D, (iii)→ C, (iv)→ A

d) (i)→ A, B, (ii)→ A, D, (iii)→ C, D, (iv)→ B

IIT 2007
1208

(One or more than one correct answer)
If  are complex numbers such that  and  then the pair of complex numbers  and  satisfy

a)

b)

c)

d) None of these

(One or more than one correct answer)
If  are complex numbers such that  and  then the pair of complex numbers  and  satisfy

a)

b)

c)

d) None of these

IIT 1985
1209

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.

A line M is drawn through A parallel to BD. Point S moves such that the distance from the line BD and the vertex A are equal. If the locus of S cuts M at T2 and T3 and AC at T1, then find the area of △T1T2T3.

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.

A line M is drawn through A parallel to BD. Point S moves such that the distance from the line BD and the vertex A are equal. If the locus of S cuts M at T2 and T3 and AC at T1, then find the area of △T1T2T3.

IIT 2006
1210

Express  in the form A + iB

a)

b)

c)

d)

Express  in the form A + iB

a)

b)

c)

d)

IIT 1979
1211

Find the area bounded by the curves
 

a) 1/6

b) 1/3

c) π

d)

Find the area bounded by the curves
 

a) 1/6

b) 1/3

c) π

d)

IIT 1986
1212

If the line x – 1 = 0 is the directrix of the parabola y2 – kx + 8 = 0, then one of the values of k is

a)

b) 8

c) 4

d)

If the line x – 1 = 0 is the directrix of the parabola y2 – kx + 8 = 0, then one of the values of k is

a)

b) 8

c) 4

d)

IIT 2000
1213

Find the area bounded by the curves x2 + y2 = 25, 4y = |4 – x2| and x = 0 above the X–axis.

a)

b)

c)

d)

Find the area bounded by the curves x2 + y2 = 25, 4y = |4 – x2| and x = 0 above the X–axis.

a)

b)

c)

d)

IIT 1987
1214

If sinA sinB sinC + cosA cosB = 1then the value of sinC is

If sinA sinB sinC + cosA cosB = 1then the value of sinC is

IIT 2006
1215

Let = 10 + 6i and  . If z is a complex number such that argument of  is  then prove that  .

Let = 10 + 6i and  . If z is a complex number such that argument of  is  then prove that  .

IIT 1990
1216

Compute the area of the region bounded by the curves
y = exlnx and

a)

b)

c)

d)

Compute the area of the region bounded by the curves
y = exlnx and

a)

b)

c)

d)

IIT 1990
1217

Sketch the curves and identify the region bounded by
 

Sketch the curves and identify the region bounded by
 

IIT 1991
1218

Consider the following linear equations
ax + by + cz = 0
bx + cy + az = 0
cx + ay + bz = 0
Match the statements/expressions in column 1 with column 2

Column 1

Column2

i. a + b + c ≠ 0 and a2 + b2 + c2 = ab + bc + ca

A. Equations represent planes meeting at only one single point

ii. a + b + c = 0 and a2 + b2 + c2 ≠ ab + bc + ca

B. The equations represent the line x = y = z

iii. a + b + c ≠ 0 and a2 + b2 + c2 ≠ ab + bc + ca

C. The equations represent identical planes

iv. a + b + c = 0 and a2 + b2 + c2 = ab + bc + ca

D.The equations represent the whole of the three dimensional space

Consider the following linear equations
ax + by + cz = 0
bx + cy + az = 0
cx + ay + bz = 0
Match the statements/expressions in column 1 with column 2

Column 1

Column2

i. a + b + c ≠ 0 and a2 + b2 + c2 = ab + bc + ca

A. Equations represent planes meeting at only one single point

ii. a + b + c = 0 and a2 + b2 + c2 ≠ ab + bc + ca

B. The equations represent the line x = y = z

iii. a + b + c ≠ 0 and a2 + b2 + c2 ≠ ab + bc + ca

C. The equations represent identical planes

iv. a + b + c = 0 and a2 + b2 + c2 = ab + bc + ca

D.The equations represent the whole of the three dimensional space

IIT 2007
1219

The domain of the function y(x) given by the equation  is

a) 0 < x ≤ 1

b) 0 ≤ x ≤ 1

c)  < x ≤ 0

d)  < x < 1

The domain of the function y(x) given by the equation  is

a) 0 < x ≤ 1

b) 0 ≤ x ≤ 1

c)  < x ≤ 0

d)  < x < 1

IIT 2000
1220

If A = , 6A-1 = A2 + cA + dI

then (c, d ) is

a) (−11, 6)

b) (−6, 11)

c)  (6, 11 )

d)  (11, 6 )

If A = , 6A-1 = A2 + cA + dI

then (c, d ) is

a) (−11, 6)

b) (−6, 11)

c)  (6, 11 )

d)  (11, 6 )

IIT 2005
1221

Prove that

Prove that

IIT 1997
1222

Tangent at a point P1 (other than (10, 0)) on the curve y = x3 meets the curve again at P2. The tangent at P2 meets the curve at P3 and so on. Show that the abscissae of P1, P2, P3, .  .  . , Pn form a Geometric Progression. Also find the ratio .

a) 32

b) 16

c)

d)

Tangent at a point P1 (other than (10, 0)) on the curve y = x3 meets the curve again at P2. The tangent at P2 meets the curve at P3 and so on. Show that the abscissae of P1, P2, P3, .  .  . , Pn form a Geometric Progression. Also find the ratio .

a) 32

b) 16

c)

d)

IIT 1993
1223

In what ratio does the X–axis divide the area of the region bounded by the parabolas y = 4x – x2 and y = x2 – x

a) 1:4

b) 21:1

c) 21:4

d) 3:4

In what ratio does the X–axis divide the area of the region bounded by the parabolas y = 4x – x2 and y = x2 – x

a) 1:4

b) 21:1

c) 21:4

d) 3:4

IIT 1994
1224

Let C1 and C2, be respectively, the parabolas  and  . Let P be any point on C1 and Q be any point on C2. Let P1 and Q1 be the reflections of P and Q respectively with respect to y = x . Prove that P1 lies on C2 and Q1 lies on C1 and  . Hence or otherwise determine points P2 and Q2 on the parabolas C1 and C2 respectively such that  for all points (P, Q) with P on C1 and Q on C2 .

Let C1 and C2, be respectively, the parabolas  and  . Let P be any point on C1 and Q be any point on C2. Let P1 and Q1 be the reflections of P and Q respectively with respect to y = x . Prove that P1 lies on C2 and Q1 lies on C1 and  . Hence or otherwise determine points P2 and Q2 on the parabolas C1 and C2 respectively such that  for all points (P, Q) with P on C1 and Q on C2 .

IIT 2000
1225

Suppose , , are the vertices of an equilateral triangle inscribed in the circle  = 2. If = 1 + i, then find  and .

a)

b)

c)

d) None of the above

Suppose , , are the vertices of an equilateral triangle inscribed in the circle  = 2. If = 1 + i, then find  and .

a)

b)

c)

d) None of the above

IIT 1994

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