Part 1: Perfectly Elastic Collisions (10) Set Elasticity to 100% Elasticity Inelastic 100% Elastic 0 Constant Size m2 V1

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Part 1 Perfectly Elastic Collisions 10 Set Elasticity To 100 Elasticity Inelastic 100 Elastic 0 Constant Size M2 V1 1 (239.67 KiB) Viewed 8 times

Part 1: Perfectly Elastic Collisions (10) Set Elasticity to 100% Elasticity Inelastic 100% Elastic 0 Constant Size m2 V11 V11 1. Simulate the collisions below. Complete the table below using formulas and the simulation (You do not have to change the positions) [8] mi V21 Ptotal V21 EK EK (kg) (kg) (m/s) (m/s) (p1i+p2i) (m/s) (m/s) Initial Final (kg-m/s) (J) ) (J) a) 1.20 kg 1.20 +1.50 -1.80 kg m/s ms m/s b) 1.90 kg +1.30 0.0 -0.25 1.05 m/s m/s c) 2.50 kg 0.84 3.03 1.75 kg 0.45 m/s Show your work for any calculations used in b) and c). 2. How does initial kinetic energy compare to final kinetic energy for a perfectly elastic collision? [1] Part 2: Perfectly Inelastic Collisions (10) Elasticity Inelastic 0% Elastic Set Elasticity to 0%: 1. Simulate the collisions below. Complete the table below using formulas and the simulation. (You do not have to change the positions) mi m2 Vii V21 Ptotal V121 (kg) (kg)(m/s (m/s) (p1i + p21) (m/s) (kg-m/s) a) 1.20 1.20 +1.50 -1.80 Ек Initial (J) [8] EK Final (J) b) 1.20 2.00 +1.25 0.25 c) 2.80 +2.40 +0.80 1.00 Show your work for any calculations 2. How does initial kinetic energy compare to final kinetic energy for a perfectly inelastic collision? [1]