JEE Questions for Maths Limits Continuity And Differentiability Quiz 10 - MCQExams.com


Maths-Limits Continuity and Differentiability-35576.png
  • 0
  • –1/3
  • 2/3
  • –2/3

Maths-Limits Continuity and Differentiability-35578.png
  • 0
  • 1
  • 2
  • Non existent

Maths-Limits Continuity and Differentiability-35580.png
  • –1
  • 0
  • 1
  • 2

Maths-Limits Continuity and Differentiability-35582.png
  • 1
  • –1
  • 1/2
  • –1/2

Maths-Limits Continuity and Differentiability-35584.png
  • 0
  • –1
  • 1


Maths-Limits Continuity and Differentiability-35586.png
  • e12
  • e–12
  • e4
  • e3

Maths-Limits Continuity and Differentiability-35588.png
  • e
  • e2
  • 1/2
  • 2

Maths-Limits Continuity and Differentiability-35590.png
  • 1
  • 0
  • e
  • None of these

Maths-Limits Continuity and Differentiability-35592.png
  • 1
  • 0

  • None of these

Maths-Limits Continuity and Differentiability-35594.png
  • 0
  • 1
  • –1
  • Not defined

Maths-Limits Continuity and Differentiability-35596.png
  • 0
  • 1
  • –1
  • 2

Maths-Limits Continuity and Differentiability-35598.png
  • 2/3
  • 3/2
  • 3
  • 1/2

Maths-Limits Continuity and Differentiability-35600.png
  • 0
  • 1
  • 2
  • –1

Maths-Limits Continuity and Differentiability-35602.png
  • 0
  • e
  • e–1
  • e2

Maths-Limits Continuity and Differentiability-35604.png
  • 1
  • 2)
    Maths-Limits Continuity and Differentiability-35605.png

  • Maths-Limits Continuity and Differentiability-35606.png
  • 0

Maths-Limits Continuity and Differentiability-35608.png
  • 1
  • 0
  • Positive infinity
  • Does not exist
The Domain of function f(x) = loge (x – [x]) is
  • R
  • R – Z
  • (0, +∞ )
  • Z
If from R → R , f(x) = (x + 1)2 , g(x) = x2 + 1, then (gof) (–equals
  • 121
  • 112
  • 211
  • None of these

Maths-Limits Continuity and Differentiability-35612.png
  • 1 + 2x2
  • 2 + x2
  • 1 + x
  • 2 + x

Maths-Limits Continuity and Differentiability-35614.png
  • x
  • 1
  • f(x)
  • g(x)

Maths-Limits Continuity and Differentiability-35616.png
  • 1
  • 3
  • 4
  • 2
Equation cos (2x += a(2 – sin x) can have a real solution for
  • All value of a
  • a ∈ [2, 6]
  • a ∈ (–∞, 2)
  • a ∈ (0, 2)
Number of bijective function from a set of 10 elements of itself is
  • 5!
  • 10!
  • 15!
  • 8!
Which relation is a function ?
  • (x, sin-1 x)
  • (x, tan x)
  • x, y ; y > x, x, y ∈ R
  • None of these

Maths-Limits Continuity and Differentiability-35620.png
  • ± π/4
  • ± π/3
  • ± π/6
  • ± π/2

Maths-Limits Continuity and Differentiability-35622.png
  • (2, -4, 2)
  • (2, 4, 2)
  • (2, 4, -2)
  • (2, -4, -2)
The value of the constants α and β such that
Maths-Limits Continuity and Differentiability-35624.png
  • (1, 1)
  • (-1, 1)
  • (1, -1)
  • (0, 1)

Maths-Limits Continuity and Differentiability-35626.png

  • 1
  • 0
  • -1

Maths-Limits Continuity and Differentiability-35628.png
  • f is differentiable at x = 1 but not at x = 0
  • f is neither differentiable at x = 0 nor at x = 1
  • f is differentiable at x = 0and at x = 1
  • f is differentiable at x = 0 but not at x = 1

Maths-Limits Continuity and Differentiability-35630.png
  • 1
  • –1
  • 0
  • None of these

Maths-Limits Continuity and Differentiability-35632.png
  • 0
  • 2
  • 1
  • None of these

Maths-Limits Continuity and Differentiability-35634.png
  • –1
  • 0
  • 1
  • does not exist

Maths-Limits Continuity and Differentiability-35636.png

  • Maths-Limits Continuity and Differentiability-35637.png
  • 2)
    Maths-Limits Continuity and Differentiability-35638.png

  • Maths-Limits Continuity and Differentiability-35639.png
  • none of these

Maths-Limits Continuity and Differentiability-35641.png
  • is log a
  • 2)
    Maths-Limits Continuity and Differentiability-35642.png
  • does not exist
  • none of these

Maths-Limits Continuity and Differentiability-35644.png

  • Maths-Limits Continuity and Differentiability-35645.png
  • 2)
    Maths-Limits Continuity and Differentiability-35646.png

  • Maths-Limits Continuity and Differentiability-35647.png
  • 0

Maths-Limits Continuity and Differentiability-35649.png

  • Maths-Limits Continuity and Differentiability-35650.png
  • 2)
    Maths-Limits Continuity and Differentiability-35651.png

  • Maths-Limits Continuity and Differentiability-35652.png
  • None of these

Maths-Limits Continuity and Differentiability-35654.png

  • Maths-Limits Continuity and Differentiability-35655.png
  • 2)
    Maths-Limits Continuity and Differentiability-35656.png

  • Maths-Limits Continuity and Differentiability-35657.png
  • none of these

Maths-Limits Continuity and Differentiability-35659.png

  • Maths-Limits Continuity and Differentiability-35660.png
  • 2)
    Maths-Limits Continuity and Differentiability-35661.png

  • Maths-Limits Continuity and Differentiability-35662.png
  • none of these

Maths-Limits Continuity and Differentiability-35664.png
  • 50
  • 100
  • 70
  • 80

Maths-Limits Continuity and Differentiability-35666.png
  • e2
  • 1/e2
  • 1
  • none of these

Maths-Limits Continuity and Differentiability-35668.png
  • e
  • e2
  • e3
  • e4

Maths-Limits Continuity and Differentiability-35670.png

  • Maths-Limits Continuity and Differentiability-35671.png
  • 2)
    Maths-Limits Continuity and Differentiability-35672.png

  • Maths-Limits Continuity and Differentiability-35673.png
  • none of these

Maths-Limits Continuity and Differentiability-35675.png
  • 1
  • ‒1
  • 4
  • none of these

Maths-Limits Continuity and Differentiability-35677.png

  • Maths-Limits Continuity and Differentiability-35678.png
  • 2)
    Maths-Limits Continuity and Differentiability-35679.png

  • Maths-Limits Continuity and Differentiability-35680.png

  • Maths-Limits Continuity and Differentiability-35681.png

Maths-Limits Continuity and Differentiability-35683.png
  • 10 + tan 10
  • tan 10 − 10
  • 10 − tan 10
  • none of these

Maths-Limits Continuity and Differentiability-35685.png
  • k
  • 2k
  • 3k
  • 4k

Maths-Limits Continuity and Differentiability-35687.png
  • 1
  • –1
  • 2
  • –2

Maths-Limits Continuity and Differentiability-35689.png
  • a = 5
  • b = 4
  • c = 6

  • Maths-Limits Continuity and Differentiability-35690.png

Maths-Limits Continuity and Differentiability-35692.png

  • Maths-Limits Continuity and Differentiability-35693.png
  • 2)
    Maths-Limits Continuity and Differentiability-35694.png

  • Maths-Limits Continuity and Differentiability-35695.png

  • Maths-Limits Continuity and Differentiability-35696.png
The function
f(x) = 3. 5x for x ≤ 0
= 3a + x for x > 0
will be continuous at x = 0 if a is equal to
  • 1
  • 2
  • ‒1
  • ‒2
0:0:1


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