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2D Collisions and Center of mass

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Presentation on theme: "2D Collisions and Center of mass"— Presentation transcript:

1 2D Collisions and Center of mass
1

2 Collisions or Explosions in Two Dimensions
y x after before Ptotal,x and Ptotal,y independently conserved Ptotal,x,before = Ptotal,x,after Ptotal,y,before = Ptotal,y,after 37

3 Example: shooting pool
during before after pf F vo = 3m/s vcm At rest 300 Mass of both balls is 2kg vf =2m/s Find final velocity and direction of white ball vf =2m/s 43

4 Example: shooting pool (cont.)

5 Center of Mass Some objects can’t be balanced on a single point
Center of Mass = Balance point Some objects can’t be balanced on a single point 46

6 Example: center of mass
m = kg 0.1m M = 0.515

7 Velocity of Center of Mass
The speed of the balance point 46

8 Elastic Collisions Find Vcm.
Subtract Vcm from both initial velocities. Change sign of both velocities. Add Vcm to both velocities.

9 Example: collision “before” “after”
Vo = 3m/s Vo = 0m/s M1=2kg M1=2kg M2=1kg M2=1kg Two blocks collide and bounce apart, what is their final velocity?

10 Example: collision “before” “after”
Vo = 3m/s Vo = 3m/s M1=2kg M1=2kg M2=1kg M2=1kg Two blocks collide and bounce apart, what is their final velocity?

11 Summary Collisions and Explosions Center of Mass (Balance Point)
Draw “before”, “after” Define system so that Fext = 0 Set up axes Compute Ptotal “before” Compute Ptotal “after” Set them equal to each other Center of Mass (Balance Point) 50

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