What Is the Final Direction and Speed of Each Billiard Ball After Collision?

AI Thread Summary
In an elastic collision between two equal mass billiard balls moving at right angles, the final direction and speeds can be determined using conservation of momentum and energy. The first ball, initially moving upward, will not necessarily move along the positive x-axis after the collision. To solve for the final speeds and direction, one can isolate the velocity components in the x and y directions, square them, and apply a trigonometric identity to eliminate the angle. The relationship between the speeds before and after the collision must also account for the two-dimensional nature of the collision. Understanding these principles allows for accurate predictions of the balls' final states post-collision.
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Two billiard balls of equal mass move at right angles and meet at the origin of an xy coordinate system. One is moving upward along the y-axis at 3 m/s, and the other is moving to the right along the x-axis with speed 4 m/s. After the collision (assumed elastic), the second ball is moving along the positive y axis.



(a) What is the final direction of the first ball?

(b) What are their two speeds?

OK, I use two different for each x and y component:
x-direction: m*4=m*v1'*cos(theta)
y-direction: m*3=m*v2'+m*v1'*sin(theta)

Now I can cancel the masses, but still, I have two equations but 3 unknowns...
 
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physicsss said:
Now I can cancel the masses, but still, I have two equations but 3 unknowns...
There is a third equation you can use: Realize that the collision is elastic.
 
No matter what I do, I can't get the answer.(yes, I used conservation of energy as my third equation) Can I assume that ball a will move along the positive x-axis after collision?
 
physicsss said:
No matter what I do, I can't get the answer.(yes, I used conservation of energy as my third equation)
So you should have 3 equations with 3 unknowns.
Can I assume that ball a will move along the positive x-axis after collision?
Of course not! :smile:

Here's a trick to simply the two momentum equations and eliminate theta: Rewrite your x-direction equation to isolate v1cos(theta) and your y-direction equation to isolate v1sin(theta). Square both sides of each equation and add them. Use a simple trig identity. Now combine with energy conservation to solve for V1 and V2. (Then go back and solve for theta.)
 
In an elastic collision the the relative speed before the collision is equal to the opposite of the negative relative speed after the collision v1-v2=-(v1-v2)
I'm not sure how this applies in 2 dimensions though, could someone explain?
 

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