B. inclined track with hanging mass (no friction)T:0011csleyd1. Set up your track with some angle of inclination 0, as shown in the following figure.Sudinatusortadret ma olen s gools botsiolooo 1189 8 to noilorlliw moilom carta'notwold po121 cmmotion detectors brangle of track: 2.7°predicted acceleration:II.sb uaitetrackRBO 997Oute (PresFIBOrise of Idi o no0 12.70inomglupa22sm gaigned banolluq diw beT1013515b nonoM1. Measure the angle of your track. Draw a free body diagram for the cart. (Free body diagramfor the hanging object should be the same as in part A.) Predict the acceleration of the cart. deistugmothe I obuoat and the26.5cmpulleyobjectodont-(noitoll on) szem guigaad diw does all.AA noiros2 101 qu 198 odi awoda wolod sugit odt150g1010919b noilom

Answered: Image /qna-images/answer/358b99d2-a0bf-4d49-af64-1c6bed08d0c8.jpg

0011 caleyd B. inclined track with hanging mass (no friction) 1. Set up your track with some angle of inclination 0, as shown in the following figure.de 0000 560 matust pulley olosu s gools botins 056 1858 to-noilom cart 2'notwolf po 121 cm Hliwow.noitom to motion detector b 12.70 angle of track: 2.7° predicted acceleration: track 20280 997di in 201 26.5cm object hodont = 150g Sinomglup3 22sm gaigned ban yollug lluq dirw beT 10135isb nonoM 1. Measure the angle of your track. Draw a free body diagram for the cart. (Free body diagram for the hanging object should be the same as in part A.) Predict the acceleration of the cart.de fuqmo (noitoll on) zem guigaad dit ben all.A A noiros2 101 qu 198 odi awoda wolod sugit odt 1010919b noitom

0011 caleyd B. inclined track with hanging mass (no friction) 1. Set up your track with some angle of inclination 0, as shown in the following figure.de 0000 560 matust pulley olosu s gools botins 056 1858 to-noilom cart 2'notwolf po 121 cm Hliwow.noitom to motion detector b 12.70 angle of track: 2.7° predicted acceleration: track 20280 997di in 201 26.5cm object hodont = 150g Sinomglup3 22sm gaigned ban yollug lluq dirw beT 10135isb nonoM 1. Measure the angle of your track. Draw a free body diagram for the cart. (Free body diagram for the hanging object should be the same as in part A.) Predict the acceleration of the cart.de fuqmo (noitoll on) zem guigaad dit ben all.A A noiros2 101 qu 198 odi awoda wolod sugit odt 1010919b noitom

University Physics Volume 1

18th Edition

ISBN:9781938168277

Author:William Moebs, Samuel J. Ling, Jeff Sanny

Publisher:William Moebs, Samuel J. Ling, Jeff Sanny

Chapter2: Vectors

Section: Chapter Questions

Problem 2.9CYU: Check Your Understanding Suppose that Balto in Example 2.10 leaves the game to attend to more...

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