Asked by Anonymous

A boat travelling at 30km/hr relative to water is headed away from the bank of a river and downstream. The river is 1/2 km wide and flows at 6km/hr. The boat arrives at the opposite bank in 1.24 min.

I calculated the perpendicular component of the boat relative to the water as 24km/hr.
I calculated the total downstream component of the boats motion as 24 km/hr (with the parallel component of the velocity of the boat relative to the water at 18km/hr).
And I calculated the direction in which the boat moves relative to land which is 45degrees to the bank.

I need help with calculating the distance the boat moves downstream as it crosses the river.
Answered by drwls
I get (0.5/1.24)*60 = 24.2 km/hr for the perpendicular component. Don't do any rounding off yet.
Parallel component of velocity, relative to water = sqrt[(30^2 - (24.2)^2] = 17.7 km/h

The parallel (downstream) velocity of the boat relative to land is 17.7 + 6 = 23.7 km/hr

The distance it drifts downstream in 1.24 minutes *(23.7 km/h)*(1h/60 min)
= 0.49 km

This agrees well with your 45 degree boat direction relative to land . The downstream drift nearly equals the river's width
Answered by Anonymous
thank you for the help!
There are no AI answers yet. The ability to request AI answers is coming soon!