Trial a (kg-m²) I, (kg-m²) 3996*10^-8 1062*10^-6 Wai (rad/s) way (rad/s) L, (kg-rad-m²/s) L (kg-rad-m²/s) -25.88 [rad/s] | -6.31 [rad/s] |

I need help with answering rotation questions where in an experiment, a second disk (Disk 2) was dropped on another disk on rotary motion sensor. Please show complete solutions and I will give thumbs up. Thank you.

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Given: disk 1 2 3 Table W1: Calculation of the moment of inertia of the disks Icm (kg-m²) 3996*10^-8 inner radius outer radius | 0.55 ± 0.02 [cm] | 8.80 ± 0.02 [cm] 2.70 Trial t; (s) 0; (rad) 1 4.00 [s] -181.78 [rad] mass | 102.8 ± 0.1 [g] 0.02 [cm] 8.70 ± 0.02 [cm] w; (rad/s) 0 (rad) wf (rad/s) -26.36 [rad/s] 9.35 [s] -309.08 [rad] -21.67 [rad/s] 256.40.1 [g] 1062*10^-6 Trial Au (rad/s) | At (8)||0| (rad/s²) | |7| (N-m) 1 4.69 5.35 3503x10^-8 0.8766 Unkown: Verification of conservation of energy Table W4: Data for verification of conservation of energy Trial | Kį (J) | Kƒ (J) | AEmech (J) | Wfriction (J) 1 0.0139 0.0094 -0.0045 -0.0045 Verification of conservation of angular momentum Table W5: Data for verification of conservation of angular momentum (kg-rad-m²/s) Trial I (kg-m²), (kg-m²) Wai (rad/s) Wb.f (rad/s) L, (kg-rad-m²/s) L 1 3996*10^-8 1062*10^-6 -25.88 [rad/s] -6.31 [rad/s] m²/s) L