Calculating Momentum in Explosions

AI Thread Summary
In the explosion problem, momentum conservation is key, as the initial momentum is zero. After the explosion, one piece moves east at 30 m/s and another southeast at 30 m/s, requiring the third piece's speed and direction to balance the momentum. The calculations show that the third piece travels at approximately 22.95 m/s at an angle of 22.5 degrees west of north. The discussion emphasizes the importance of vector components in determining the final velocity of the third piece. Ultimately, momentum conservation confirms the calculated speed and direction.
mindhater
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Need help on this problem - exactly as stated

Homer the human powder keg, initially at rest, suddenly explodes into three pieces each with equal mass. One piece moves east at 30 m/s and a second piece moves at 30 m/s southeast.

Caculate the speed of the third piece and calculate the direction in which it travels

Thanks for the help
 
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I'm going to go with 55.4m/s at 22.5degrees North of East.

Hopefully someone can verify that answer.
 
i agree with the direction but the speed wud be equal would it not
 
Originally posted by FUNKER
i agree with the direction but the speed wud be equal would it not

Why? Momentum is conserved, not 'speed'. Before the explosion momentum was zero. It must be afterwards too.
 
Since the three pieces had equal mass, you can factor the mass out of momentum and just use speed, if you want. The point is that the vector sum of the three vectors has to be 0, and so you have to do some trig.
 
yeah, add the x components up = 8.8 m/s East
add the y components up = 21.2 m/s South

so 8.8 m/s West and 21.2 m/s North will give you the opposite vector, thereby conserving momentum

answer = 22.95 m/s @ 22.5 deg West of North
 

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