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JEE Advanced Level Test: Limits & Derivatives- 1 - JEE MCQ


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30 Questions MCQ Test Chapter-wise Tests for JEE Main & Advanced - JEE Advanced Level Test: Limits & Derivatives- 1

JEE Advanced Level Test: Limits & Derivatives- 1 for JEE 2024 is part of Chapter-wise Tests for JEE Main & Advanced preparation. The JEE Advanced Level Test: Limits & Derivatives- 1 questions and answers have been prepared according to the JEE exam syllabus.The JEE Advanced Level Test: Limits & Derivatives- 1 MCQs are made for JEE 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for JEE Advanced Level Test: Limits & Derivatives- 1 below.
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JEE Advanced Level Test: Limits & Derivatives- 1 - Question 1

 (1 - x + [x - 1] + [1 - x]) is (where [*] denotes greatest integer function)

Detailed Solution for JEE Advanced Level Test: Limits & Derivatives- 1 - Question 1

For left hand limit x-1 will tend to 0
However for greatest integer function (second term) since x is slightly lesser than 1, x-1 tends to left side of zero and that under G.I.F. will be equal to -1.
For the third term since x is lesser than 1, 1-x will tend to right side of 0 and that under the G.I.F. will be equal to zero.
So the final limit will be equal to 0–1+0 = -1

JEE Advanced Level Test: Limits & Derivatives- 1 - Question 2

Detailed Solution for JEE Advanced Level Test: Limits & Derivatives- 1 - Question 2

lim x-->∞ sec-1(x/x+1)
lim x-->∞ sec-1(x/x[1+1/x])
lim x-->∞ sec-1(1/(1+1/x))
sec-1(1/(1+1/∞))   {therefore 1/∞ = 0)
sec-1 (1/(1+0))
sec-1(1)
sec-1(sec0)
= 0

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JEE Advanced Level Test: Limits & Derivatives- 1 - Question 3

JEE Advanced Level Test: Limits & Derivatives- 1 - Question 4

Detailed Solution for JEE Advanced Level Test: Limits & Derivatives- 1 - Question 4

We know from trigonometry that
−1≤sin(1x)<−1 for all x≠0
Important: for limx→0 we don't care what happens when x=0
Since x<2>0 for all x≠0 , we can multiply through by x2 to get
−x2= x2sin(1/x)≤x2
Clearly limx→0(−x2)= 0 and limx→0 x2=0, so, by the squeeze theorem,
lim x→0 x2sin(1/x) = 0

JEE Advanced Level Test: Limits & Derivatives- 1 - Question 5

The value of 

JEE Advanced Level Test: Limits & Derivatives- 1 - Question 6

is (where [*] denotes greatest integer function)

Detailed Solution for JEE Advanced Level Test: Limits & Derivatives- 1 - Question 6

cosx=sin(x−π/2) 
limx→π/2 (x−π/2)/cosx
limx→π/2 (x−π/2)/[sin(x−π/2)]
= limθ→0 [θ/sinθ]= 1 
we let  θ=x−π/2  part way through
since  limt→0 sint/t=1  is a given after the first chapter in most calculus classes.
Using L’H: 
limx→π/2 (x−π/2)/cosx
= limx→π/2  (1/(−sinx)) = -1

JEE Advanced Level Test: Limits & Derivatives- 1 - Question 7

The value of  is equal to

Detailed Solution for JEE Advanced Level Test: Limits & Derivatives- 1 - Question 7

 lim x→π/2 tan2x(√2sin2x+3sinx+4 − √sin2x+6sinx+2)
lim x→π/2 tan2x[(√2sin^2x+3sinx+4 − √sin2x+6sinx+2) *  (√2sin2x+3sinx+4 +√sin2x+6sinx+2)]
a = 2sin2x+3sinx+4 
b = sin2x+6sinx+2
(a+b) * (a-b) = a2 - b2
=lim x→ pi/2  tan2x((2sin2x+3sinx+4) − (sin2x+6sinx+2))/[√2sin2x+3sinx+4 + √sin2x+6sinx+2]
=lim x→ pi/2 tan2x[sin^2x+3sinx+2]/[√2sin2x+3sinx+4 + √sin2x+6sinx+2]
=lim x→ pi/2 tan^2x = sin2x/cos2x
tan2x = sin2x/(1-sin2x)
=lim x→ pi/2 -sin2x(sinx-1)(sinx-2)/(1-sinx)(1+sinx)
=lim x→ pi/2 -sin(pi/2) sin2(pi/2-x)/[1+sinpi/2) * 6
= -1*(-1)/2*6  = 1/12

JEE Advanced Level Test: Limits & Derivatives- 1 - Question 8

JEE Advanced Level Test: Limits & Derivatives- 1 - Question 9

JEE Advanced Level Test: Limits & Derivatives- 1 - Question 10

The n ∈ N is (where [*] denotes greatest integer function)

Detailed Solution for JEE Advanced Level Test: Limits & Derivatives- 1 - Question 10

lim θ→0[nsinθ/θ]=n−1.....[from graph maximum value of sinx/x=1]
lim θ→0[ntanθ/θ]=n.....[from graph minimum value of tanx/x=1]
Hence, lim x→θ([[nsinθ/θ]+[ntanθ/θ])
= n−1+n  =2n−1

JEE Advanced Level Test: Limits & Derivatives- 1 - Question 11

has the value equal to

JEE Advanced Level Test: Limits & Derivatives- 1 - Question 12

(where [*] denotes greatest integer function)

JEE Advanced Level Test: Limits & Derivatives- 1 - Question 13

JEE Advanced Level Test: Limits & Derivatives- 1 - Question 14

JEE Advanced Level Test: Limits & Derivatives- 1 - Question 15

The value of  is equal to (where [*] denotes greatest integer function)

JEE Advanced Level Test: Limits & Derivatives- 1 - Question 16

JEE Advanced Level Test: Limits & Derivatives- 1 - Question 17

The limit  is equal to 

JEE Advanced Level Test: Limits & Derivatives- 1 - Question 18

If [x] denotes the greatest integer < X , then ([13 x] + [23 x] + .....+ [n3 x]) equlas

JEE Advanced Level Test: Limits & Derivatives- 1 - Question 19

JEE Advanced Level Test: Limits & Derivatives- 1 - Question 20

and h(x) = |x| then find  f(g(h(x)))

JEE Advanced Level Test: Limits & Derivatives- 1 - Question 21

JEE Advanced Level Test: Limits & Derivatives- 1 - Question 22

then  f(x) equals

JEE Advanced Level Test: Limits & Derivatives- 1 - Question 23

JEE Advanced Level Test: Limits & Derivatives- 1 - Question 24

Detailed Solution for JEE Advanced Level Test: Limits & Derivatives- 1 - Question 24

Hence it is 0/0 form, Use L hospital rule,
Log y = log 2-cosx
Log y = -cosx log2
1/y dy/dx = - log2[-sinx]
1/y dy/dx = sinx log2
dy/dx = ysinx log2
dy/dx = 2-cosx log2 sinx
Lim x→ pi/2  (2-cosx log2 sinx - 0)/((pi - pi/2)+x)
Lim x→ pi/2  (1*log2*1)/pi/2
= 2log2/pi 
=(log22)/pi
= 2log2/pi

JEE Advanced Level Test: Limits & Derivatives- 1 - Question 25

JEE Advanced Level Test: Limits & Derivatives- 1 - Question 26

Given A = . If A - λ is a singular

JEE Advanced Level Test: Limits & Derivatives- 1 - Question 27

JEE Advanced Level Test: Limits & Derivatives- 1 - Question 28

Given a real valued function f such that (where [*] denotes greatest integer function and {*} denotes function part function)

JEE Advanced Level Test: Limits & Derivatives- 1 - Question 29

The limit  is equal to 

Detailed Solution for JEE Advanced Level Test: Limits & Derivatives- 1 - Question 29

Apply L′Hopital′s Rule

Apply L′Hopital′s Rule

JEE Advanced Level Test: Limits & Derivatives- 1 - Question 30

 is equal to

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