Answer:
The resultant velocity is [tex]v_t=10 knots[/tex]
Explanation:
Apply the law of conservation of momentum
[tex]M_L *v_L + M_f * V_f = (M_L + M_f) v_t[/tex]
Where [tex]M_L[/tex] is the mass of the Luxury Liner = 40,000 ton
[tex]v_L[/tex] is the velocity of Luxury Liner = 20 knots due west
[tex]M_f[/tex] mass of freighter = 60,000
[tex]v_f[/tex] is the velocity of freighter = 10 knots due north
Apply the law of conservation of momentum toward the the west direction
[tex]v_f = 0 \ knots[/tex]
So the equation would be
[tex]M_L *v_L = (M_L + M_f) v_t[/tex]
Substituting values
[tex]40000*20 = (40000+ 60000)v_t_w[/tex]
Where [tex]v_t_w[/tex] the final velocity due west
Making [tex]v_t_w[/tex] the subject
[tex]v_t_w = \frac{40,000* 20}{(40000 + 60000)}[/tex]
[tex]= 8 \ knots[/tex]
Apply the law of conservation of momentum toward the the north direction
[tex]v_L = 0 \ knots[/tex]
So the equation would be
[tex]M_f *v_f = (M_L + M_f) v_t_n[/tex]
Where [tex]v_t_n[/tex] the final velocity due north
Making [tex]v_t_n[/tex] the subject
[tex]v_t_n = \frac{60,000* 10}{(40000 + 60000)}[/tex]
[tex]= 6 \ knots[/tex]
The resultant velocity is
[tex]v_t = \sqrt{v_t_w^2 + v_t_n^2}[/tex]
[tex]= \sqrt{8^2 +6^2}[/tex]
[tex]v_t=10 knots[/tex]
