.

Collision 1: Before N Sim Speed Time = 0.00 s Restart Back Play Step Ball Mass Position Velocity Momentum kg m m/s kg m/s 1 2 1.00 5 10.00 2 2.00 -5 -10.00 Less Data 2015 University of ColoradoCollision 1: After 2 Sim Speed K Time = 0.06 s Restart Back Play Step Ball Mass Position Velocity Momentum kg m m/s kg m/s 2.00 1.30 -5.00 -10.00 2.00 1.70 5.00 10.00 Less Data 2015 University of Colorado\fCollision 2: After 2 Sim Speed Time = 0.07 s Restart Back Play Step Ball Mass Position Velocity Momentum kg m m/s kg m/s 1.00 1.29 -8.33 -8.33 2.00 1.68 1.67 3.33 Less DataCollision 3: Before 2 Sim Speed Time = 0.00 s Restart Back Step Play Ball Mass Position Velocity Momentum kg m m/s kg m/s 1 2 1.00 5.00 10.00 2.00 2.00 -5.00 -10.00 Less DataCollision 3: After 2 Sim Speed D Time = 0.19 s Restart Back Play Step Ball Mass Position Velocity Momentum kg m m/s kg m/s 1 2100 1.31 0.00 0.00 2.00 1.69 0.00 0.00 Less DataCollision 4: Before 2 Sim Speed K Time = 0.00 s Restart Back Play Step Ball Mass Position Velocity Momentum kg m m/s kg m/s 1.00 1.00 5.00 5.00 2.00 2.00 -5.00 -10.00 Less DataCollision 4: After N Sim Speed Time = 0.21 s Restart Back Play Step Ball Mass Position Velocity Momentum kg m m/s kg m/s 100 1.08 -1.67 -1.67 2.00 1.42 -1.67 -3.33 Less Data\fCollision 6: After C Sim Speed K D Time = 0.42 s Restart Back Step Play Ball Mass Position Velocity Momentum kg m m/s kg m/s 1 1.00 2.13 1.67 1.67 2.00 2.47 1.67 3.33Conservation of Momentum Lab Worksheet Instructions: Complete the data collection using the interactive. After collecting all data, do the calculations for total momentum. The Data and calculations will be used to answer questions about the lab and write up the conclusion. Data: Collision 1 Mass Initial Velocity Final Velocity Momentum Initial Momentum Final kg) (m/s (m/s) (kg*m/s) (kg*m/s) Mass 1 Mass 2 Collision 2 Mass Initial Velocity Final Velocity Momentum Initial Momentum Final (kg) (m/s) (m/s) (kg*m/s) (kg*m/s) Mass 1 Mass 2 Collision 3 Mass Initial Velocity Final Velocity Momentum Initial Momentum Final (kg) (m/s) (m/s) (kg*m/s) (kg*m/s) Mass 1 Mass 2 Collision 4 Mass Initial Velocity Final Velocity Momentum Initial Momentum Final (kg) (m/s) (m/s) (kg*m/s) (kg*m/s) Mass 1 Mass 2 Collision 5 |Mass Initial Velocity Final Velocity Momentum Initial Momentum Final (kg) (m/s) (m/s) (kg*m/s) (kg*m/s) Mass 1 Mass 2 Collision 6 Mass Initial Velocity Final Velocity Momentum Initial Momentum Final (kg) (m/s) (m/s) (kg*m/s) (kg*m/s) Mass 1 Mass 2Calculations (show all work): Collision Total Momentum Initial Total Momentum Final (kg*m/s) (kg*m/s) Collision 1 Collision 2 Collision 3 Collision 4 Collision 5 Collision 6Questions and Conclusion Answer the following questions in complete sentences. 1. Three collisions are elastic and three are inelastic. Determine which collision type took place for each collision. Support your conclusion with the data and observations from the lab. 2. Using your data, how are you able to determine if conservation of momentum occurs in each collision? 3. Write a conclusion for this lab. Also, make sure to discuss the conservation of momentum and how it applies to collisions