mı: 3 kg m2: 2 kg V1i: 1.5 m/s V2i: -2 m/s Find the following values from the simulation Vif: O.10 V2r. O- 1O Verify that momentum is conserved and kinetic energy is conserved by completing the following table: Momentum Momentum after Kinetic energy Kinetic energy after collision 2 miV12 + ½ m2V2? ½ miV12 + ½ m2V2? before collision collision before collision miV1i + m2V2i m1Vif + m2V2f

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**Simulation Parameters:** - Mass of object 1, \( m_1 \): 3 kg - Mass of object 2, \( m_2 \): 2 kg - Initial velocity of object 1, \( v_{1i} \): 1.5 m/s - Initial velocity of object 2, \( v_{2i} \): -2 m/s **Find the following values from the simulation:** - Final velocity of object 1, \( v_{1f} \): 0.10 m/s - Final velocity of object 2, \( v_{2f} \): 0.10 m/s **Verification of Conservation Laws:** Verify that momentum is conserved and kinetic energy is conserved by completing the following table: | | Momentum Before Collision | Momentum After Collision | Kinetic Energy Before Collision | Kinetic Energy After Collision | |------------------------------------|----------------------------------|---------------------------------|---------------------------------------------|--------------------------------------------| | Formula | \( m_1v_{1i} + m_2v_{2i} \) | \( m_1v_{1f} + m_2v_{2f} \) | \( \frac{1}{2} m_1v_{1i}^2 + \frac{1}{2} m_2v_{2i}^2 \) | \( \frac{1}{2} m_1v_{1f}^2 + \frac{1}{2} m_2v_{2f}^2 \) |