For the elastic collision in the illustration, with m, = 1.20 kg, traveling at 4.50 m/s, and m2 = 0.750 kg,initially at rest. Mass 1 is observed to be traveling at 2.00 m/s at 33° from the forward direction.After...pi + p2 = PtotBeforemP, = PiotV2 = 0mmm202net F = 0v2m2System of interest(after collision)System of interest(before collision)What is the final speed Blank 1, in m/s, and vector angle Blank 2, in degrees of Mass 2? Do not enterunits with answers.Blank 1 Add your answerBlank 2Add your answer

m1 = 1.2 kg m2 = 0.75 kg u1 = 4.5 m/su2 = 0 m/sv1' = 2 m/s θ1 = 33o using conservation of momentum 1.2*4.5 i^ = (1.2)(2)(cos33o i^ + sin33oj^) + 0.75v2'5.4 i^ = 2.012i^ + 1.307j ^+ 0.75v2'3.388i^ - 1.307 j^ = 0.75v2'4.517i^ - 1.742j^ = v2'Magnitude of speed of m2 after collision = 4.5172 + (-1.742)2 = 4.84 m/sθ2 = Tan-1(1.742/4.517)θ2 = 21.1o

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For the elastic collision in the illustration, with m, = 1.20 kg, traveling at 4.50 m/s, and m2 0.750 kg, initially at rest. Mass 1 is observed to be traveling at 2.00 m/s at 33° from the forward direction. After ... pi + p2 = Piot Before P, = Plot V2 = 0 V, mm m2 02 net F = 0 v2 m2 System of interest (after collision) System of interest (before collision) What is the final speed Blank 1, in m/s, and vector angle Blank 2, in degrees of Mass 2? Do not enter units with answers. Blank 1 Add your answer Blank 2 Add your answer

For the elastic collision in the illustration, with m, = 1.20 kg, traveling at 4.50 m/s, and m2 0.750 kg, initially at rest. Mass 1 is observed to be traveling at 2.00 m/s at 33° from the forward direction. After ... pi + p2 = Piot Before P, = Plot V2 = 0 V, mm m2 02 net F = 0 v2 m2 System of interest (after collision) System of interest (before collision) What is the final speed Blank 1, in m/s, and vector angle Blank 2, in degrees of Mass 2? Do not enter units with answers. Blank 1 Add your answer Blank 2 Add your answer

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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