$\"\"$

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The ship is moving at a speed of $\"\"$ km/h.

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The ship is travelling parallel to shoreline and at noon the ship passes the light house.

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At noon, the ship is $\"\"$ km from shore.

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$\"\"$

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(a)

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Find $\"\"$ .

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Observe the above figure.

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In the beginning, the ship is $\"\"$ distance away from the light house .

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At noon time, the distance between ship and light house is $\"\"$ km.

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$\"\"$ is the distance traveled by the ship.

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From Pythagorean theorem,

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$\"\"$

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The function of distance traveled by the ship is $\"\"$ . $\"\"$

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(b)

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Find $\"\"$ .

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$\"\"$ is the distance as a function of time.

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Let $\"\"$ be the time taken by the ship to travel a distance of $\"\"$ .

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The speed of the ship is $\"\"$ km/h.

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Speed-distance relation:

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$\"\"$

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$\"\"$ .

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Therefore $\"\"$ .

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$\"\"$ .

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The distance traveled by the ship since noon time is $\"\"$ .

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$\"\"$

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(c)

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Find $\"\"$ .

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$\"\"$

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$\"\"$ ( Since $\"\"$ )

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$\"\"$

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$\"\"$ .

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It represents the distance between the ship and the light house as the function of time elapsed since noon.

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$\"\"$

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(a) $\"\"$ .

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(b) $\"\"$ .

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(c) $\"\"$ , it represents the distance between the ship and the light house as the function of time elapsed since noon.