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1001

The area of the region {(x,y):x0,x+y3,x2<4yy1+x}

is

a) 5912

b) 32

c) 783

d) 52

The area of the region {(x,y):x0,x+y3,x2<4yy1+x}

is

a) 5912

b) 32

c) 783

d) 52

IIT 2017
1002

The total number of local maximum and minimum of the function
is

a) 0

b) 1

c) 2

d) 3

The total number of local maximum and minimum of the function
is

a) 0

b) 1

c) 2

d) 3

IIT 2008
1003

The area enclosed by the curve y = sinx + cosx and y = |cosx – sinx| over the interval [0,π2]

is

a) 4(21)

b) 22(21)

c) 2(21)

d) 22(2+1)

The area enclosed by the curve y = sinx + cosx and y = |cosx – sinx| over the interval [0,π2]

is

a) 4(21)

b) 22(21)

c) 2(21)

d) 22(2+1)

IIT 2014
1004

If  and bn = 1 – an then find the least natural number n0 such that bn > an for all n ≥ n0

If  and bn = 1 – an then find the least natural number n0 such that bn > an for all n ≥ n0

IIT 2006
1005

If  are unit coplanar vectors then the scalar triple product  

a) 0

b) 1

c)

d)

If  are unit coplanar vectors then the scalar triple product  

a) 0

b) 1

c)

d)

IIT 2000
1006

One or more than one correct option

If the line x = α divides the area of the region R = {(x, y) ∈ ℝ2 : x3 ≤ y ≤ x, 0 ≤ x ≤ 1 into two equal parts then

a) 2α44α2+1=0

b) α4+4α21=0

c) 12<α<1

d) 0<α<12

One or more than one correct option

If the line x = α divides the area of the region R = {(x, y) ∈ ℝ2 : x3 ≤ y ≤ x, 0 ≤ x ≤ 1 into two equal parts then

a) 2α44α2+1=0

b) α4+4α21=0

c) 12<α<1

d) 0<α<12

IIT 2017
1007

The sides of a triangle inscribed in a given circle subtend angles α, β and γ at the centre. The minimum value of the Arithmetic mean of
 
 

The sides of a triangle inscribed in a given circle subtend angles α, β and γ at the centre. The minimum value of the Arithmetic mean of
 
 

IIT 1987
1008

Show that the sum of the first n terms of the series
12 + 2.22 + 32 + 2.42 + 52 + 2.62 + .  .  .
is  when n is even, and  when n is odd.

Show that the sum of the first n terms of the series
12 + 2.22 + 32 + 2.42 + 52 + 2.62 + .  .  .
is  when n is even, and  when n is odd.

IIT 1988
1009

Differentiate from first principles (or ab initio)

a) 2xcos(x2 + 1)

b) xcos(x2 + 1)

c) 2cosx(x2 + 1)

d) 2xcosx(x2 + 1) + sin(x2 + 1)

Differentiate from first principles (or ab initio)

a) 2xcos(x2 + 1)

b) xcos(x2 + 1)

c) 2cosx(x2 + 1)

d) 2xcosx(x2 + 1) + sin(x2 + 1)

IIT 1978
1010

One or more than one correct option

Let y(x) be a solution of the differential equation (1+ex)y+yex=1

. If y(0) = 2, then which of the following statements is/are true?

a) y(−4) = 0

b) y(−2) = 0

c) y(x) has a critical point in the interval (−1, 0)

d) y(x) has no critical point in the interval

One or more than one correct option

Let y(x) be a solution of the differential equation (1+ex)y+yex=1

. If y(0) = 2, then which of the following statements is/are true?

a) y(−4) = 0

b) y(−2) = 0

c) y(x) has a critical point in the interval (−1, 0)

d) y(x) has no critical point in the interval

IIT 2015
1011

An urn contains two white and two black balls. A ball is drawn at random. If it is white it is not replaced in the urn. Otherwise it is placed along with the other balls of the same colour. The process is repeated. Find the probability that the third ball drawn is black?

An urn contains two white and two black balls. A ball is drawn at random. If it is white it is not replaced in the urn. Otherwise it is placed along with the other balls of the same colour. The process is repeated. Find the probability that the third ball drawn is black?

IIT 1987
1012

Find the derivative with respect to x of the function

 at x =

a)

b)

c)

d)

Find the derivative with respect to x of the function

 at x =

a)

b)

c)

d)

IIT 1984
1013

The function y = f(x) is the solution of the differential equation dydx+xyx21=x4+2x1x2

in (−1, 1) satisfying f(0) = 0, then 3232f(x)dx is

a) π332

b) π334

c) π634

d) π632

The function y = f(x) is the solution of the differential equation dydx+xyx21=x4+2x1x2

in (−1, 1) satisfying f(0) = 0, then 3232f(x)dx is

a) π332

b) π334

c) π634

d) π632

IIT 2014
1014

Solve  

Solve  

IIT 1996
1015

Let y′(x) + y(x) g′(x) = g(x) g′(x), y(0) = 0, x ∈ ℝ where f′(x) denotes ddxf(x)

and g(x) is a given non constant differentiable function on ℝ with g(0) = g(2) = 0. Then the value of y(2) is

a) 1

b) 0

c) 2

d) 4

Let y′(x) + y(x) g′(x) = g(x) g′(x), y(0) = 0, x ∈ ℝ where f′(x) denotes ddxf(x)

and g(x) is a given non constant differentiable function on ℝ with g(0) = g(2) = 0. Then the value of y(2) is

a) 1

b) 0

c) 2

d) 4

IIT 2011
1016

One or more than one correct option

A solution curve of the differential equation (x2+xy+4x+2y+4)dydxy2=0,x>0

passes through the point (1, 3), then the solution curve

a) Intersects y = x + 2 exactly at one point

b) Intersects y = x + 2 exactly at two points

c) Intersects y = (x + 2)2

d) Does not intersect y = (x + 3)2

One or more than one correct option

A solution curve of the differential equation (x2+xy+4x+2y+4)dydxy2=0,x>0

passes through the point (1, 3), then the solution curve

a) Intersects y = x + 2 exactly at one point

b) Intersects y = x + 2 exactly at two points

c) Intersects y = (x + 2)2

d) Does not intersect y = (x + 3)2

IIT 2016
1017

The value of

a) –1

b) 0

c) 1

d) i

e) None of these

The value of

a) –1

b) 0

c) 1

d) i

e) None of these

IIT 1987
1018

Let U1 = 1, U2 = 1, Un + 2 = Un + 1 + Un, n > 1. Use mathematical induction to show that
 
for all integers n > 1

Let U1 = 1, U2 = 1, Un + 2 = Un + 1 + Un, n > 1. Use mathematical induction to show that
 
for all integers n > 1

IIT 1981
1019

Let f(x) = (1 – x)2 sin2x + x2Consider the statementsStatement 1: There exists some x ∈ ℝ such that f(x) + 2x = 2(1 + x2)Statement 2: There exists some x ∈ ℝ such that 2f(x) + 1 = 2x(x + 1)

a) Both 1 and 2 are true

b) 1 is true and 2 is false

c) 1 is false and 2 is true

d) Both 1 and 2 are false

Let f(x) = (1 – x)2 sin2x + x2Consider the statementsStatement 1: There exists some x ∈ ℝ such that f(x) + 2x = 2(1 + x2)Statement 2: There exists some x ∈ ℝ such that 2f(x) + 1 = 2x(x + 1)

a) Both 1 and 2 are true

b) 1 is true and 2 is false

c) 1 is false and 2 is true

d) Both 1 and 2 are false

IIT 2013
1020

Let z and ω be two complex numbers such that |z| ≤ 1, |ω| ≤ 1 and   then z equals

a) 1 or i

b) i or –i

c) 1 or –1

d) i or –1

Let z and ω be two complex numbers such that |z| ≤ 1, |ω| ≤ 1 and   then z equals

a) 1 or i

b) i or –i

c) 1 or –1

d) i or –1

IIT 1995
1021

Given
 
 
Prove that
 

Given
 
 
Prove that
 

IIT 1984
1022

The coordinates of the in centre of the triangle that has the co ordinates of the mid points of its sides as (0, 1), (1, 1) and (1, 0) is

a) 2+2

b) 22

c) 1+2

d) 12

The coordinates of the in centre of the triangle that has the co ordinates of the mid points of its sides as (0, 1), (1, 1) and (1, 0) is

a) 2+2

b) 22

c) 1+2

d) 12

IIT 2013
1023

Using mathematical induction, prove that

 for n > 1

Using mathematical induction, prove that

 for n > 1

IIT 1986
1024

If f(x) =  then on the interval [0, π]

a) tan  and  are both continuous

b) tan  and  are both discontinuous

c) tan  and  are both continuous

d) tan  is continuous but  is not

If f(x) =  then on the interval [0, π]

a) tan  and  are both continuous

b) tan  and  are both discontinuous

c) tan  and  are both continuous

d) tan  is continuous but  is not

IIT 1989
1025

One or more than one correct option

A ray of light along x+3y=3

gets reflected upon reaching X- axis, the equation of the reflected ray is

a) y=x+3

b) 3y=x3

c) y=3x3

d) 3y=x1

One or more than one correct option

A ray of light along x+3y=3

gets reflected upon reaching X- axis, the equation of the reflected ray is

a) y=x+3

b) 3y=x3

c) y=3x3

d) 3y=x1

IIT 2013

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