Calculus MCQs Question and Answer in Engineering Maths Page-10 section-2

91.
Minimum of the real valued function \[{\rm{f}}\left( {\rm{x}} \right) = {\left( {{\rm{x}} - 1} \right)^{\frac{2}{3}}}\] occurs at x equal to

A. \[ - \infty \]

B. 0

C. 1

D. \[\infty \]

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92.
Given the following statements about a function f : R → R , select the right option:
P: If f(x) is continuous at x = x₀, then it is differential at x = x₀.
Q: If f(x) is continuous at x = x₀, then it may not be differentiable at x = x₀.
R: If f(x) is differentiable at x = x₀, then it is also continuous at x = x₀.

A. P is true, Q is false, R is false

B. P is false, Q is true, R is true

C. P is false, Q is true, R is false

D. P is true, Q is false, R is true

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93.
The integral \[\frac{1}{{\sqrt {2\pi } }}\int\limits_{ - \infty }^\infty {{{\rm{e}}^{ - \frac{{{x^2}}}{2}}}} {\rm{dx}}\] is equal to

A. \[\frac{1}{2}\]

B. \[\frac{1}{{\sqrt 2 }}\]

C. 1

D. \[\infty \]

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94.
The area of a triangle formed by the tips of vectors \[\overline {\rm{a}} {\rm{,}}\,\overline {\rm{b}} \] and \[\overline {\rm{c}} \] is

A. \[\frac{1}{2}\left( {\overline {\rm{a}} - \overline {\rm{b}} } \right) \cdot \left( {\overline {\rm{a}} - \overline {\rm{c}} } \right)\]

B. \[\frac{1}{2}\left| {\left( {\overline {\rm{a}} - \overline {\rm{b}} } \right) \times \left( {\overline {\rm{a}} - \overline {\rm{c}} } \right)} \right|\]

C. \[\frac{1}{2}\left| {\overline {\rm{a}} \times \overline {\rm{b}} \times \overline {\rm{c}} } \right|\]

D. \[\frac{1}{2}\left( {\overline {\rm{a}} \times \overline {\rm{b}} } \right) \cdot \overline {\rm{c}} \]

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95.
For real x the maximum value of \[\frac{{{{\text{e}}^{\sin {\text{x}}}}}}{{{{\text{e}}^{\cos {\text{x}}}}}}\] is

A. 1

B. e

C. \[{{\text{e}}^{\sqrt 2 }}\]

D. \[\infty \]

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96.
Which of the following is not associated with vector calculus?

A. Stoke's theorem

B. Gauss Divergence theorem

C. Green's theorem

D. Kennedy's theorem

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97.
The series \[\sum\limits_{{\text{m}} = 0}^\infty {\frac{1}{{{4^{\text{m}}}}}{{\left( {{\text{x}} - 1} \right)}^{2{\text{m}}}}} \] converges for

A. -2 < X < 2

B. -1 < X < 3

C. -3 < X < 1

D. X < 3

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98.
f(x, y) is a continuous function defined over (x, y) \[ \in \] [0, 1] × [0, 1]. Given the two constraints, x > y² and y > x², the volume under f(x, y) is

A. \[\int\limits_{{\text{y}} = 0}^{{\text{y}} = 1} {\int\limits_{{\text{x}} = {{\text{y}}^2}}^{{\text{x}} = \sqrt {\text{y}} } {{\text{f}}\left( {{\text{x,}}\,{\text{y}}} \right){\text{dx dy}}} } \]

B. \[\int\limits_{{\text{y}} = {{\text{x}}^2}}^{{\text{y}} = 1} {\int\limits_{{\text{x}} = {{\text{y}}^2}}^{{\text{x}} = 1} {{\text{f}}\left( {{\text{x,}}\,{\text{y}}} \right){\text{dx dy}}} } \]

C. \[\int\limits_{{\text{y}} = 0}^{{\text{y}} = 1} {\int\limits_{{\text{x}} = 0}^{{\text{x}} = 1} {{\text{f}}\left( {{\text{x,}}\,{\text{y}}} \right){\text{dx dy}}} } \]

D. \[\int\limits_{{\text{y}} = 0}^{{\text{y}} = \sqrt {\text{x}} } {\int\limits_{{\text{x}} = 0}^{{\text{x}} = \sqrt {\text{y}} } {{\text{f}}\left( {{\text{x,}}\,{\text{y}}} \right){\text{dx dy}}} } \]

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99.
The value of \[\int\limits_0^{\frac{\pi }{6}} {{{\cos }^4}3\theta \,{{\sin }^3}6\theta \,{\text{d}}\theta } \] is

A. 0

B. \[\frac{1}{{15}}\]

C. 1

D. \[\frac{8}{3}\]

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100.
Which one of the following is NOT a correct statement?

A. The function \[\sqrt[{\text{x}}]{{\text{x}}}\],(x > 0), has the global minima at x = e

B. The function \[\sqrt[{\text{x}}]{{\text{x}}}\],(x > 0), has the global maxima at x = e

C. The function x³ has neither global minima nor global maxima

D. The function |x| has the global minima at x = 0

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Calculus MCQs Question and Answer in Engineering Maths

91. Minimum of the real valued function \[{\rm{f}}\left( {\rm{x}} \right) = {\left( {{\rm{x}} - 1} \right)^{\frac{2}{3}}}\] occurs at x equal to

Answer & Solution

Answer & Solution

93. The integral \[\frac{1}{{\sqrt {2\pi } }}\int\limits_{ - \infty }^\infty {{{\rm{e}}^{ - \frac{{{x^2}}}{2}}}} {\rm{dx}}\] is equal to

Answer & Solution

94. The area of a triangle formed by the tips of vectors \[\overline {\rm{a}} {\rm{,}}\,\overline {\rm{b}} \] and \[\overline {\rm{c}} \] is

Answer & Solution

95. For real x the maximum value of \[\frac{{{{\text{e}}^{\sin {\text{x}}}}}}{{{{\text{e}}^{\cos {\text{x}}}}}}\] is

Answer & Solution

96. Which of the following is not associated with vector calculus?

Answer & Solution

97. The series \[\sum\limits_{{\text{m}} = 0}^\infty {\frac{1}{{{4^{\text{m}}}}}{{\left( {{\text{x}} - 1} \right)}^{2{\text{m}}}}} \] converges for

Answer & Solution

98. f(x, y) is a continuous function defined over (x, y) \[ \in \] [0, 1] × [0, 1]. Given the two constraints, x > y2 and y > x2, the volume under f(x, y) is

Answer & Solution

99. The value of \[\int\limits_0^{\frac{\pi }{6}} {{{\cos }^4}3\theta \,{{\sin }^3}6\theta \,{\text{d}}\theta } \] is

Answer & Solution

100. Which one of the following is NOT a correct statement?

Answer & Solution

Read More Section(Calculus)

91.
Minimum of the real valued function \[{\rm{f}}\left( {\rm{x}} \right) = {\left( {{\rm{x}} - 1} \right)^{\frac{2}{3}}}\] occurs at x equal to

93.
The integral \[\frac{1}{{\sqrt {2\pi } }}\int\limits_{ - \infty }^\infty {{{\rm{e}}^{ - \frac{{{x^2}}}{2}}}} {\rm{dx}}\] is equal to

94.
The area of a triangle formed by the tips of vectors \[\overline {\rm{a}} {\rm{,}}\,\overline {\rm{b}} \] and \[\overline {\rm{c}} \] is

95.
For real x the maximum value of \[\frac{{{{\text{e}}^{\sin {\text{x}}}}}}{{{{\text{e}}^{\cos {\text{x}}}}}}\] is

96.
Which of the following is not associated with vector calculus?

97.
The series \[\sum\limits_{{\text{m}} = 0}^\infty {\frac{1}{{{4^{\text{m}}}}}{{\left( {{\text{x}} - 1} \right)}^{2{\text{m}}}}} \] converges for

98.
f(x, y) is a continuous function defined over (x, y) \[ \in \] [0, 1] × [0, 1]. Given the two constraints, x > y² and y > x², the volume under f(x, y) is

99.
The value of \[\int\limits_0^{\frac{\pi }{6}} {{{\cos }^4}3\theta \,{{\sin }^3}6\theta \,{\text{d}}\theta } \] is

100.
Which one of the following is NOT a correct statement?