Answer:
The largest to smallest change in momentum with respect to magnitude of change in momentum is as follows;
1st- Collision (1) & Collision (2 or b in question)
2nd- Collision (4)
3rd- Collision (3)
Explanation:
This is because momentum is mass times into velocity. i.e.
P=m.v (kg.m/s - S.I unit)
(where p is momentum, m is mass of object and v is velocity or speed object)
If mass remains constant(real life scenario) then change in momentum is directly related to change in speed. i.e
Δp=m⋅(Δv)=m⋅(vf−vi) where vf is final velocity and vi is initial velocity.
By using above formula ;
we can calculate change in momentum for different collisions with respect to cart B.
m= mass of cart B
Collision (1) Δp=m⋅(Δv)=m⋅(vf−vi)=m.(0-1.0)=-m kg.m/s (where "-" indicates deceleration or stopping of object.)
Collision (2 or b in question ) Δp=m⋅(Δv)=m⋅(vf−vi)=m.(0-1.0)=-m kg.m/s
Collision (3) Δp=m⋅(Δv)=m⋅(vf−vi)=m.(0-0)=0 (which indicates that object remains stationary before and after collision and momentum for cart B is 0)
Collision (4) Δp=m⋅(Δv)=m⋅(vf−vi)=m.(0.67-0)=0.67m kg.m/s
Therefore collisions (1) and (2 or b) are ranked 1st, collision (4) ranked 2nd and collision (3) ranked 3rd.
