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Limits and Derivatives

Multiple Choice Questions

limit as straight x space rightwards arrow 0 of space fraction numerator sin begin display style left parenthesis end style begin display style straight pi end style begin display style space end style begin display style begin display style cos end style squared end style begin display style straight x end style begin display style right parenthesis end style over denominator straight x squared end fraction space is space equal space to

π/2
1
-π
-π

301 Views

limit as straight x space rightwards arrow 0 of fraction numerator left parenthesis 1 minus cos space 2 straight x right parenthesis left parenthesis 3 plus cos space straight x right parenthesis over denominator straight x space tan space 4 straight x end fraction space is space equal space to space

-1/4
1/2
1
1

188 Views

The equation of the tangent to the curve y = x +4/x², that is parallel to the x-axis, is

y= 0
y= 1
y= 2
y= 2

162 Views

Let cos (α + β) = 4/5 and let sin (α - β) = 5/13, where 0 ≤α,β ≤ π/4. Then tan 2α is equal to

25/16
56/33
19/12
19/12

145 Views

stack lim space with straight x space rightwards arrow straight pi over 2 below space fraction numerator cot space straight x space minus cos space straight x over denominator left parenthesis straight pi minus 2 straight x right parenthesis cubed end fraction space equals

1/4
1/24
1/16
1/16

396 Views

If 5(tan²x – cos²x) = 2cos ²x + 9, then the value of cos⁴x is

-7/9
-3/5
1/3
1/3

542 Views

7.
The differential equation which represents the family of curves y=c₁e^c₂xe, where c₁ and c₂ are arbitrary constants, is

y' =y²

y″ = y′ y

yy″ = y′

yy″ = y′

yy″ = y′

y c₁e^c₂x = …..(i)
y' = c₁c₂e^c₂x
y' = c₂y.....(from (i) ....(ii)
y" = c₂y' ....... (iii)
from (ii) & (iii)
$fraction numerator straight y apostrophe over denominator straight y end fraction space equals space fraction numerator straight y " over denominator straight y apostrophe end fraction rightwards double arrow space yy " space equals space left parenthesis straight y apostrophe right parenthesis squared$

120 Views

The solution of the differential equation $dy over dx space equals space fraction numerator straight x plus straight y over denominator straight x end fraction$ satisfying the condition y (1) = 1 is

y = ln x + x
y = x ln x + x²
y = xe^(x−1)
y = xe^(x−1)

128 Views

If $limit as straight x space rightwards arrow infinity of space open parentheses 1 plus straight a over straight x plus straight b over straight x squared close parentheses to the power of 2 straight x end exponent space equals space straight e squared$ then the values of a and b, are

$straight a element of space straight R with equals below space straight b element of space straight R with equals below$
$straight a space equals 1 comma space straight b element of space straight R with equals below$
$straight a element of space straight R with equals below space comma space straight b space equals 2$
$straight a element of space straight R with equals below space comma space straight b space equals 2$