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I'm programming a really simple 2D collision response algorithm (thankfully), but even the really simple geometry concepts have been baffling me. Been studying! But...

In this case, it's vectors:

If an object hits a piece of geometry, I want to completely eliminate that object's momentum in the direction parallel to the normal of the geometry's wall. There's no friction or bounce involved luckily, but even still I'm not sure how to find a vector that will completely negate that momentum along the normal.

Thank you in advance!

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Are you familiar with basic vector operations (addition, subtraction, scalar multiplication, dot product)? –  Beta Feb 20 '11 at 21:20
    
@Beta: Yeah! I made a small vector class, which can do addition, subtraction, scalar multiply, dot/cross product, and that good stuff –  Clairvoire Feb 20 '11 at 21:23
    
Calculate the motion normal to the plane, then subtract that. –  Ignacio Vazquez-Abrams Feb 20 '11 at 21:25
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3 Answers 3

up vote 2 down vote accepted

Calculate the dot product of the geometry wall normal with the velocity vector of the object. The result equals the velocity component in the direction of the wall normal. Subtract the wall normal multiplied by this result from the velocity vector to remove all velocity in that direction.

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Also, make sure that the wall normal is unit-length! –  ltjax Feb 20 '11 at 21:49
    
That looks to work! Thank you! –  Clairvoire Feb 20 '11 at 22:02
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If you look for the reflection formula, there is a term there that subtracts twice the velocity in the direction of the geometry normal. Change that to 1 times and it will stop instead of bouncing. Sorry, no time for formulas ;-)

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I am familiar with that, thank you! I'll give that a try! –  Clairvoire Feb 20 '11 at 21:29
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enter image description here

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OP did not want bounce/reflection. Also formula is formatted poorly (unsymmetrical). –  Tom Sirgedas Feb 28 '11 at 23:13
    
@Tom Sorry, I'm just a poor physicist. I'm sure you can understand the requirement better than me. –  belisarius Feb 28 '11 at 23:46
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