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oPhys X Lab 4 X x Forces X Files X PRE atwoo X oPhys X oPhys X baer Project X oPhys X oPhys X PART
oPhys X Lab 4 X x Forces X Files X PRE atwoo X oPhys X oPhys X baer Project X oPhys X oPhys X PART PhET : X Logol X mer Masse X + X CA File | C:/Users/sawer/Downloads/atwood%20machine%20(1).pdf . . . of 3 Q + | Page view A Read aloud T Add text Draw v Highlight v Erase a2 m2 Figure 1: An Atwood Machine. When mi > m2, the sign convention used is such that mi accelerates in the downwards y direction and m2 moves upwards. Here we let the acceleration be positive. On the other hand, if my Assignments > Lab 6 Atwood machine Spring 2022 Lab 6 Atwood machine At Start Assignment Home Announcements Due Apr 16 by 11:59pm Points 100 Submitting a file upload Assignments 3 Discussions Use the two links provided and the files in the lab files folder to guide you through the experiment Establish a data table using different mass settings to have different accelerations and graph position graphs Grades https://www.thephysicsaviary.com/Physics/Programs/Labs/AtwoodLab/ ? People http://physics.bu.edu/~duffy/HTML5/Atwoods machine.html c Files Syllabus Quizzes Modules Previous Next > BigBlueButton Collaborations Chat Office 365 Smarthinking Online Tutoring Cisco Webex 62 W Cm 4:56 PM Sunny P 4/29/2022 8Read aloud E] Experiment 5: Atwood's Machine In 1784, George Atwood created a device to calculate force and tension and to verify the laws of motion of objects under constant acceleration. His device, now known as an Atwood's Machine. consisted of two masses, m1 and mi, connected by a tight string that passes over it pulley, as seen in Figure 1. When the mm are equal, the pulley system is in equilibrium, i.e. balanced. \"When the masses are not equal, hoth masses will experience an acceleration (indicated with red arrows in Figure 1). For simplication, we will assume the ideal pulley scenario, Where the rinses of the string is negligible and we ignore any frictional eects acting on the pulley. With these assumptions, the accelerations 0.1 and 0.2 are equal. 4:53 PM 4/29/2022 0
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