$\"\"$

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(a)

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Find $\"\"$ .

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Observe the graph.

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As $\"\"$ tends to $\"\"$ , $\"\"$ approaches to $\"\"$ .

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Hence $\"\"$ .

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(b)

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Find $\"\"$ .

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Observe the graph.

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As $\"\"$ tends to $\"\"$ , $\"\"$ approaches to $\"\"$ .

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Hence $\"\"$ .

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(c)

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Find $\"\"$ .

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Observe the graph.

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Left hand limit $\"\"$ :

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As $\"\"$ tends to $\"\"$ from left side, $\"\"$ approaches to $\"\"$ .

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Hence $\"\"$ .

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Right hand limit $\"\"$ :

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As $\"\"$ tends to $\"\"$ from right side, $\"\"$ approaches to $\"\"$ .

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Hence $\"\"$ .

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Left hand limit and right hand limit are equal, $\"\"$ exist.

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Therefore $\"\"$ .

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(d)

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Find $\"\"$ .

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Observe the graph.

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Left hand limit $\"\"$ :

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As $\"\"$ tends to $\"\"$ from left side, $\"\"$ approaches to $\"\"$ .

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Hence $\"\"$ .

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Right hand limit $\"\"$ :

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As $\"\"$ tends to $\"\"$ from right side, $\"\"$ approaches to $\"\"$ .

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Hence $\"\"$ .

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Left hand limit and right hand limit are equal, $\"\"$ exist.

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Therefore $\"\"$ .

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(e)

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Vertical asymptote :

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The vertical asymptote is a line equation, toward which a function $\"\"$ approaches to either positive or negative infinity.

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Observe the graph.

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The function approaches to positive infinity at $\"\"$ and negative infinity at $\"\"$ .

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The vertical asymptotes are $\"\"$ and $\"\"$ .

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Horizontal asymptote :

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The horizontal asymptote is a line equation, as the value of $\"\"$ approaches to either positive or negative infinity.

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Observe the graph.

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The horizontal asymptotes are $\"\"$ and $\"\"$ .

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(a) $\"\"$ .

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(b) $\"\"$ .

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(c) $\"\"$ .

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(d) $\"\"$ .

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(e) The asymptote are $\"\"$ , $\"\"$ , $\"\"$ and $\"\"$ .