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0.5 m 0.00 s Normal G O Slow More Data Mass (kog) Position (m) Velocity (m's) Momentum (kg mis) X 0.50 -1.00 1.00 0.50 1.50
0.5 m 0.00 s Normal G O Slow More Data Mass (kog) Position (m) Velocity (m's) Momentum (kg mis) X 0.50 -1.00 1.00 0.50 1.50 1.00 -0.50 0.75 i. Launch Phet collision lab ii. Enable the "More Data" option to view the individual velocities of the objects iii. Make sure the elasticity is set at 100% elastic. iv . Define the system V. Keeping the default settings and predict the outcome of the collision. In which direction will the two objects move after the collision? vi. Find the initial total system momentum (show calculations) vii. Find the final total system momentum (show calculations). Is the initial and the final net system momentum conserved? viii. Change the masses and the velocities and press the play button. For each cases are the momentum conserved? 6.2. Inelastic Collision i. Now change the elasticity to 50% Elasticity 50% Inelastic Elastic ii. Keeping the default settings and predict the outcome of the collision. In which direction will the two objects move after the collision? How will the velocities of each object change in comparison to the elastic collision situation
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