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Relations and Functions

Multiple Choice Questions

71.

$If 0 < y < 2^{\frac{1}{3}} and x (y^{3} - 1) = 1, then \frac{2}{x} + \frac{2}{3 x^{3}} + \frac{2}{5 x^{5}} + . . . is equal to :$

$\log (\frac{y^{3}}{2 - y^{3}})$
$\log (\frac{y^{3}}{1 - y^{3}})$
$\log (\frac{2 y^{3}}{1 - y^{3}})$
$\log (\frac{y^{3}}{1 - 2 y^{3}})$

72.

$If f : N \to Z is defined by f (n) = \{2 if n = 3 k, k \in Z 10 if n = 3 k + 1, k \in Z 0 if n = 3 k + 2, k \in Z\} Then, \{n \in N : f (n) > 2\} is equal to$

{3, 6, 4}
{1, 4, 7}
{4, 7}
{7}

73.

The value of $\sqrt{42 + \sqrt{42 + \sqrt{42 + . . .}}}$ is equal to

74.

$If \log_{27} (\log_{3} (x)) = \frac{1}{3}, then the value of x is$

75.

$x = \frac{1}{2} (\sqrt{3} + \frac{1}{\sqrt{3}}), then \frac{\sqrt{x^{2} - 1}}{x - \sqrt{x^{2} - 1}}$

1
2
3
$\frac{1}{2}$

76.

If a, b, c $\neq$ 0 and belong to the set to {0, 1, 2, 3, ..., 9}, then $\log_{10} (\frac{a + 10 b + 10^{2} c}{10^{- 4} a + 10^{- 3} b + 10^{- 2} c})$ is equal to

77.
$\{n (n + 1) (2 n + 1) : n \in Z\} \subset$

$\{6 k : k \in Z\}$

$\{12 k : k \in Z\}$

$\{18 k : k \in Z\}$

$\{24 k : k \in Z\}$

$\{6 k : k \in Z\}$

$Let f (x) = \{n (n + 1) (2 n + 1) : n \in Z\} When we put the different values of n, we will get the set = \{. . ., - 30, - 6, 0, 6, 12, . . .\} \Rightarrow \{n (n + 1) (2 n + 1) : n \in Z\} \subset \{6 k : k \in Z\}$