Answer:
A) 2.351 m/s
B) 1.904 m/s
C) 4.846 kgm/s
D) 7.293 J
Explanation:
According to the laws of conservation of linear momentum,
the momentum of the moving objects before impact is equal to the momentum of the objects after impact (Assuming no external forces were applied)
momentum before impact = momentum after impact
Mw* Uw + Mb * Ub = Mw * Vw + Mb * Vb
Considering the horizontal motion , →
1.61* 3.01 + 1.61 * 0 = 1.61 * (Vw)ₓ + 1.61 * (Vb)ₓ
(Vw)ₓ + (Vb)ₓ = 3.01 --------(1)
Vw*cos(51) + Vb*cos(39) = 3.01
Vw*0.63 + Vb*0.77 = 3.01 -----------------------(1)
Considering the Vertical motion , ↑
1.61* 0 + 1.61 * 0 = 1.61 * (Vw)ₙ + 1.61 * (Vb)ₙ
↑(Vw)ₓ =↓ (Vb)ₓ
↑Vw * sin(51)=↓ Vb*sin(39)
Vw= 0.81 * Vb --------------(2)
From (1) (2)
0.81 * Vb*0.63 + Vb*0.77 = 3.01
Vb = 2.351 m/s
Vw= 0.81 * 2.351
Vw= 1.904 m/s
momentum Final = momentum before
= Mw * Uw
= 1.61 *3.01
= 4.846 kgm/s
Since this is a elastic motion , no energy loss will be there
therefore , Final energy = initial energy
= 1/2 * Mw *V²w
= 1/2 * 1.61 * 3.01²
= 7.293 J
