Question: 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-->

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.

Collisions labthe graphs are the first two pics logger brothe other two

pics are the regulars just find the masseverything is included--> that is

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

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