I need questions b. asap

Table 3.3: Use mass and velocity values to complete the following momentum table. Before Collision After Collision AMomentum .245 kg X 0.6 mfg .245 kg X 'D.25 mfg Red Cliff 0.0552 e 0.14? kgmls = 43.0808 kg'mls Mkg x 1] W5 0.745 kg x 0.3 [1115 Blue Cart -0.298 = 0 kgms = 0.2 kgms System Total .147 0.135 0.05 Question 3.1: Make a Claim as to whether momentum is conserved or not conserved during elastic collision. Identify the Evidence that 9 supports your claim; refer to specific sets of values in each data table. Write a paragraph or more of sound Reasoning to argue why the evidence logically lead to the claim you are making. Write well. Write logically. Write thoroughly. based on the data we got from case 3. our system is not conserved during an elastic collision. although it should be conserved, since in case 1 and 2 of an elastic collisions were conserved. it seems like we had a calibration issue since the velocity doesn't add up and the system should be closed the velocity should look similar to case 2 elastic collision. since case 2 and 3 elastic collision are the same experiment but the mass's of the carts are switched which in theory should come to the same conclusion which is the system is conserved. b) Conservation of Kinetic Energy in Elastic Collisions Next, we will explore whether Kinetic Energy is conserved. Use the values you recorded for mass and velocity above in Table 3.3 to determine whether this elastic collision gains, loses, keeps constant the total amount of Kinetic Energy in the entire system. Before Collision After Collision 1/: ):_kgx(_m,l's]z Text ltg'lzuzl's2 ' x_kgx{_m,fs]l LE x_kgx(_m,fs)1 = Text System Total Text Text