Linear Momentum to Angular Momentum

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SUMMARY

The discussion focuses on the calculation of angular velocity for a door struck by a bullet, emphasizing the distinction between linear momentum and angular momentum. The bullet, weighing 10 g and traveling at 400 m/s, embeds itself in a 10 kg door, leading to an angular momentum analysis. The correct approach involves calculating the angular momentum of the bullet relative to the hinges, rather than equating linear momentum directly to angular momentum. The final angular velocity of the door is determined to be 0.833 rad/s after correcting for the angular momentum of the bullet.

PREREQUISITES
  • Understanding of linear momentum (p = mv)
  • Knowledge of angular momentum (L = Iω)
  • Familiarity with moment of inertia calculations
  • Concept of conservation of momentum in rotational systems
NEXT STEPS
  • Study the calculation of angular momentum for moving objects
  • Learn about moment of inertia for various shapes and configurations
  • Explore the principles of conservation of momentum in both linear and angular contexts
  • Investigate the effects of constraints (like hinges) on momentum conservation
USEFUL FOR

Physics students, educators, and anyone interested in mechanics, particularly in the analysis of collisions and rotational dynamics.

brad hars
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Homework Statement


A 10 g bullet traveling at 400 m/s strikes a 10 kg , 1.2-m-wide door at the edge opposite the hinge. The bullet embeds itself in the door, causing the door to swing open. What is the angular velocity of the door immediately after impact?

Homework Equations


p[/B]= mv
L = Iω

The Attempt at a Solution


For the bullet:
p = (0.010) * (400) = 4
For the door:
I = (1/3)(10.01)(1.2)^2 = 4.8048

Momentum is conserved.
p = Iω
4 = 4.8048 * ω
ω = 0.833
This seems right, and I've traced it over again and still seems right, but it's not and I can't seem to find out why.
 
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brad hars said:
p = Iω
Here is your problem. You are setting linear momentum p equal to angular momentum Iω.
 
Well, yea. Because the bullet goes in the door and all that linear momentum p goes into angular momentum. I'm not sure what else I could do with it.
 
brad hars said:
Well, yea. Because the bullet goes in the door and all that linear momentum p goes into angular momentum. I'm not sure what else I could do with it.
Try to calculate the angular momentum of the bullet. Angular momentum and linear momentum are two separate quantities.
 
Linear momentum is not conserved because the hinges prevent the door's center of mass from moving in a straight line. You have to set the angular momentum of the bullet (relative to the hinges) equal to the angular momentum of the door (also relative to the hinges). Keep apples with apples and oranges with oranges.
 
But doesn't the bullet have 0 angular momentum?
 
Not with respect to the hinges. ##\vec{L}=\vec r \times \vec p##.
 

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