Collisions lab

the graphs are the first two pics logger bro

the other two pics are the regulars just find the mass

everything is included--> that is all I got from the professor

instruction/task to answer

• Using the masses of the two carts given in the two pictures( zoom in on the wight things ), and the two graphs(zoom in the first and second pic ) , check whether the post collision velocities, v1 and v2 agree with the prediction from the equations.
• Find the percent error between predicted and observed post collision velocities.
• Show all steps in your calculations and submit a regular typed report.

Time (S) Page Help HAQQYNKA/ NOW Collect 04 Statistics for Latest | Velocity 1 min: 0.1172 at 2.780 max: 0.1572 at 2.300 mean: 0.1384 median: 0, 1414 Statistics for: Latest | Velocity 1 std. dev: 0,01117 samples: 17 min: 0.3184 at 1.740 max: 0.3899 at 1.180 Ay 0.040 mean: 0 3618 median: 0.3643 sid dev: 0,02131 samples: 15 0.2- Ay 0.071 0.0- Velocity 1 (m/s) Velocity 2 (m/s) Statistics for Latest | Velocity 2 -0.002858 at 1.540 max: 0.001906 at 1.100 02 mean: -3.363E-05median: 0 std. dev: 0.001226 samples: 17 Statistics for: Latest | Velocity 2 Ay 0.005 min; -0. 1543 at2 140 max: -0.1176 at2.780 mean: -0. 1368 median: 0.1382 std, dev: 0.01138 samples: 17 by 0.037 04- 0 (2 297, 0.1193) Time (s) 1:49 PM 4 4/22/2022 QStatistics for Latest | Velocity 1 min: 0.1172 at 2.780 max: 0.1572 at 2.300 mean: 0.1384 median: 0. 1414 Statistics for Latest | Velocity 1 std. dev: 0,01117 samples: 17 min: 0.3184 at 1.740 max: 0.3899 at 1.180 Ay: 0.040 mean: 0 3618 median: 0.3643 std. dev: 0,02131 samples: 15 Ay 0.071 Statistics for: Latest | Velocity 2 min:-0.002858 at 1.540 max: 0.001906 at 1 100 mean:-3.363E-05median: 0 std. dev: 0.001226 samples: 17 Statistics for Latest | Velocity 2 Ay: 0.005 min; -0.1543 at2.140 max:-0.1176 at2.780 mean: -0. 1368 median:-0.1382 std, dev: 0.01138 samples: 17 Ay: 0.037Statistics for: Latest | Velocity 1 min: -0.01010 at 1.900 max: 0.002477 at 2.420 mean: -0.004373 median: -0.005145 std. dev: 0.003395 samples: 19 Ay: 0.013 Statistics for: Latest | Velocity 1 min: 0.3247 at 1,300 max: 0.3855 at 0.8600 mean: 0,3648 median: 0.3664 std. dev: 0.01750 samples: 14 Ay 0.061 Statistics for Latest | Velocity 2 min: -0.3359 at 1.780 max; -0.2778 at2.540 mean: -0.3021 median: -0.2990 tatistics for, Latest | Velocity 2 std. dev: 0.01436 samples: 22 in: -0.003430 at 0.6600 max: 0.002858 at 0.7800 Ay 0.058 hean:-0.0003049 median: -0.0001906 d. dev: 0.001927 samples: 15 y: 0.006Page Help EHAQQANYM/ MONO Collect 0.4- Statistics for: Latest | Velocity 1 min: -0.01010 at 1.900 max: 0.002477 at2.420 mean: -0.004373 median: -0.005145 std. dev: 0.003395 samples: 19 Ay: 0.013 Statistics for Latest | Velocity 1 3247 at 1 300 max. 0.3855 at 0.8600 mean: 0.3648 median: 0.3664 std. dev: 0.01750 samples: 14 0.2 Ay: 0.061 0.0 Velocity 1 (m/s) Velocity 2 (m/s) Statistics for Latest | Velocity 2 min: -0.3359 at 1.780 max: -0.2778 at 2 540 mean: -0,3021 median: -0.2990 Statistics for Latest | Velocity 2 std. dev: 0.01436 samples: 22 min:-0.003430 at 0.6600 max: 0.002858 at 0.7800 Ay. 0.058 mean:-0.0003049 median: -0.0001906 -0.2 std. dev: 0.001927 samples 15 Ay: 0.006 04 0 (2.640, 0.2119) Time (s)atistics for Latest| Velocity 2778 at2 540 CART PASCO scientific ME-9430 0 10 20 30 40 50 60 70 80 DYNAMICS CART 0 100 200 300 400 500 8 0 10 8 ALL Date Ca Precise\fi) As given in the question, there are two different Velocities of two different objects. let's assume 14 and i for both the masses of the bodies . Now, the velocity of ( 7, would be V, and the Velocity of /2 would be y/2. Now, to check whether the initial velocities would provide - exact final velocities or not , we can USC Conservation momentum theorem Let final velocities would of, and V/zofor both masses respectively . Applying conservation of momentum throum. Plugging the values in the above equation- We could find our solution . 11) To find the percentage error between predicted and observed collision velocities would be ! - let Predicted velocity = VPredicted Observed velocity : 1 observed.Percentage em? - I Vobserved- Vpredicted / X 1001. W observed Steps: - is To find , the above value we just have to plug the required values in the equation . in Afte find the clifference between the Vobserved and predicted, divide the value by Vobserved Multiply the obtained value to find the percentage error in terms of Observed cund predicted velocity . These are the basic skeleton to find the solution for question related to different velocity . Just plug in the values to find the