Answer:
The final speed of puck 1 is 0.739 m/s towards west and puck 2 is 2.02 m/s towards east .
Explanation:
Let us consider east as positive direction and west as negative direction .
Given
mass of puck 1 , [tex]m_1= 0.473 kg[/tex]
mass of puck 2 , [tex]m_2= 0.819 kg[/tex]
initial speed of puck 1 , [tex]u_1=2.76\frac{m}{s}[/tex]
initial speed of puck 2 , [tex]u_2=0.00\frac{m}{s}[/tex]
Final speed of puck 1 and puck 2 be [tex]v_1\, and\, v_2[/tex] respectively
Apply conservation of linear momentum
[tex]m_1u_1+m_2u_2=m_1v_1+m_2v_2[/tex]
=>[tex]0.473\times 2.76+0.0=0.473\times v_1+0.819\times v_2[/tex]
=>[tex]1.594=0.5775\times v_1+ v_2[/tex] -----(A)
Since collision is perfectly elastic , coefficient restitution e=1
[tex]u_2-u_1=v_1-v_2[/tex]
=>[tex]0-2.76=v_1-v_2[/tex] ------(B)
From equation (A) and (B)
[tex]v_1=-0.739\frac{m}{s}[/tex]
and [tex]v_2=2.02\frac{m}{s}[/tex]
Thus the final speed of puck 1 is 0.739 m/s towards west and puck 2 is 2.02 m/s towards east .
