From the previous problem at what angle to the horizontal must be steered in order to reach a point on the opposite bank directly east from the starting point? (Assuming his speed w.r.t. to the river is 4 m/s)
We know that →vman should be horizontal let us assume that he steers the boat at some angle to the
horizontal such that, his velocity w.r.t ground is horizontal.
This means, his velocity w.r.t to the river will make angle θ with the x axis.
We know his speed w.r.t to the river is 4 m/s.
∴→vm=→vmr+→vr
= 4cosθ^i+4sinθ^j−2^j
= 4cosθ^i+(4sinθ−2)^jm/s
To reach a point exactly opposite his starting point,his vertical must be zero.
∴4sinθ−2=0
⇒sinθ=12=12
⇒θ=30∘
∴ He must start at 30∘ to the horizontal
Method - 2
Using triangle law, we knew
→vmr+→vr=→vm
And →vm is horizontal
∴sinθ=24=12∴θ=30∘