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6. A boat with speed of 1.20 km/h relative to the water is heading for a dock 2.29 km downstream. If the river speed is 0.384 km/h, how many minutes will it take to reach the dock?​
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1 vote
6. A boat with speed of 1.20 km/h relative to the water is heading for a dock 2.29

km downstream. If the river speed is 0.384 km/h, how many minutes will it take
to reach the dock?​

User Didier Sampaolo
by
5.0k points

1 Answer

5 votes

Answer: 87 min

Step-by-step explanation:

The speed of the boat
S_(boat) will be its speed relative to the river
S_(boat-river) plus the the speed of the river
S_(river):


S_(boat)=S_(boat-river)+S_(river) (1)


S_(boat)=1.20 km/h+0.384 km/h (2)


S_(boat)=1.584 (km)/(h) (3)

On the other hand, the speed of the boat is given by a relation between its traveled distance
d and the time
t:


S_(boat)=(d)/(t) (4)

Isolating
t and knowing
d=2.29 km:


t=(d)/(S_(boat)) (5)


t=(2.29 km)/(1.584 (km)/(h)) (6)


t=1.445 h (60min)/(1 h)=86.74 min \approx 87 min (7)

Hence the time in minutes is 87 min.

User Onida
by
4.7k points
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