Determine the mass of each of the carts used in the experiment Set up the carts so they stick together after colliding Place the unknown mass into cart 2. With cart 2 at rest push cart 1 into it Using the Vernier motion sensors determine the velocities of each cart before and after the collsion. Use the conservation of momentum to determine the mass of the unknown cart. red Cart 1 Mass 0.531 ky Mass of unknown cart= Experiment #8 11.531 kg. Cart 1 vi 0.346 red Cart 1 Mass Cart 1 v 0.359 Mass of unknown cart = Cart 1 vf 0.12 Determine the mass of each of the carts used in the experiment Set up the carts so they stick together after colliding Place the unknown mass into cart 2. 1₂= Blue MIVII+Mzvzi = M₁ Vif tM ₂ Vzf, 2 Place a large known mass into cart 1 With cart 2 at rest push cart 1 into it Using the Vernier motion sensors determine the velocities of each cart before and after the collsion. Use the conservation of momentum to determine the mass of the unknown cart. M₂= Cart 2 vi O Cart 1 vf 0.220 Blue. red 0.125 Blue 0.115 Cart 2 vf 0.11 Cart 2 v₁ Cart 2 vf 0.215
Determine the mass of each of the carts used in the experiment Set up the carts so they stick together after colliding Place the unknown mass into cart 2. With cart 2 at rest push cart 1 into it Using the Vernier motion sensors determine the velocities of each cart before and after the collsion. Use the conservation of momentum to determine the mass of the unknown cart. red Cart 1 Mass 0.531 ky Mass of unknown cart= Experiment #8 11.531 kg. Cart 1 vi 0.346 red Cart 1 Mass Cart 1 v 0.359 Mass of unknown cart = Cart 1 vf 0.12 Determine the mass of each of the carts used in the experiment Set up the carts so they stick together after colliding Place the unknown mass into cart 2. 1₂= Blue MIVII+Mzvzi = M₁ Vif tM ₂ Vzf, 2 Place a large known mass into cart 1 With cart 2 at rest push cart 1 into it Using the Vernier motion sensors determine the velocities of each cart before and after the collsion. Use the conservation of momentum to determine the mass of the unknown cart. M₂= Cart 2 vi O Cart 1 vf 0.220 Blue. red 0.125 Blue 0.115 Cart 2 vf 0.11 Cart 2 v₁ Cart 2 vf 0.215
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Mass of unknown cart=
Experiment #8
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Determine the mass of each of the carts used in the experiment
Set up the carts so they stick together after colliding
Place the unknown mass into cart 2.
With cart 2 at rest push cart 1 into it
Using the Vernier motion sensors determine the velocities of each cart before and after the
collsion.
Use the conservation of momentum to determine the mass of the unknown cart.
red
Cart 1 Mass
0.531 kg
14.531 kg
Cart 1 vi
0.346
red
Cart 1 Mass
Cart 1 v
0.359
Mass of unknown cart =
Cart 1 vf
0.12
Determine the mass of each of the carts used in the experiment
Set up the carts so they stick together after colliding
Place the unknown mass into cart 2.
1₂=
M₂=
Blue
MIVII+M₂V₂i = M₁ V₁f +M ₂ Vzf,
2
V₂f,
Place a large known mass into cart 1
With cart 2 at rest push cart 1 into it
Using the Vernier motion sensors determine the velocities of each cart before and after the
collsion.
nollon
Use the conservation of momentum to determine the mass of the unknown cart.
Cart 2 v₁
Cart 1 vf
0.220
Bive.
red
0.125
Blue 0.115
Cart 2 Vf
0.11
Cart 2 Vi
Cart 2 vf
0.215
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