Question 1189951
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1. A 0.22 kg red striped pool ball is moving at 3.0 m/s North and it collides with a white cue ball 
   that is 0.25 kg and it is moving at 1.0 m/s South. After the collision, the red striped ball continues 
   at 2.5 m/s North. What is the velocity of the white cue ball?


2. Two skaters are skating towards each other. The 75.0 kg man is moving at 2.0 m/s to the right, 
   and he picks up the 40.0 kg woman skater who is moving at - 1.5 m/s to the left. 
   What speed and direction do they move off together (assuming no friction on the ice)?
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            The solution by @mananth to problem  1  is  ABSOLUTELY  WRONG.  So,  I came to bring correct calculations.


            Next,  the problem itself is posed  INCORRECTLY,  as I will explain it in my post-solution note.



                        Problem  1



<pre>
Since two balls move in opposite directions, vectors along North axis contribute with the " + " sign,
while vectors along South axis contribute with the " - " sign ".


The momentum of the red   ball before collision is  {{{R[before]}}} =  0.22*3   =  0.66 (kg*m)/s.

The momentum of the white ball before collision is  {{{W[before]}}} = -0.25*1   = -0.25 (kg*m)/s.


The momentum of the red   ball after collision is  {{{R[after]}}}   =  0.22*2.5 = 0.55 (kg*m)/s.

The momentum conservation law states that the total moment after collision is the same as before collision


    {{{R[before]}}} + {{{W[before]}}} = {{{R[after]}}} + {{{W[after]}}}

or

    0.66 - 0.25 = 0.55 + {{{W[after]}}},   in (kg*m)/s.


From this equation, you find the momentum of the white ball after collision  {{{W[after]}}}

    {{{W[after]}}} = 0.66 - 0.25 - 0.55 = -0.14  (kg*m)/s.


As the last step, you find the velocity of the white ball after collision by dividing its momentum by its mass


    velocity of the white ball after collision = {{{-0.14/2.5}}} = -0.056 m/s.


The sign "-" tells that white ball moves south after collision.


At this point, the formal calculations are completed.
</pre>


But look what we get.


The red ball initially moved North and continues moving North after collision.

The white ball initially moved South and continues moving South after collision.

It means, physically, then the balls &nbsp;" penetrated "  through each other,
which physically may not happen with real balls &nbsp;(no one physical experiment, &nbsp;so far, &nbsp;showed similar phenomenon).


Therefore, &nbsp;I think that the problem is posed physically &nbsp;INCORRECTLY.


No one real physical experiment may produce such a combination of input values as presented in your post.



The problem as posed, &nbsp;with provided input data is a &nbsp;FAKE.



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The solution by @mananth is wrong, &nbsp;since he uses incorrect expressions for the momentum,

placing incorrect signs there.