# B using the direction rosette shown above indicate

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(b) Using the direction rosette shown above, indicate the direction for each of the forces acting on m 2 that you identified in part (a). If any of the forces listed below is not applicable, choose 'NA'. Force Direction m 1 a NA m 2 a NA m 1 g NA m 2 g 1 ( m 1 + m 2 ) a NA ( m 1 + m 2 ) g NA f 7 T 3 F N 5
(c) Identify the forces acting on the hanging mass m 1 . (Select all that apply.) 11 N
(d) Using the direction rosette shown above, indicate the direction for each of the forces acting on m 1 that you identified in part (c) above. If any of the forces listed below is not applicable, choose 'NA'. Force Direction m 1 a NA m 2 a NA m 1 g 1 m 2 g NA ( m 1 + m 2 ) a NA ( m 1 + m 2 ) g NA f NA T 5 F N NA Additional Materials Newton's Second Law Appendix Viewing Saved Work Revert to Last Response 5. 15/15 points | Previous Answers My Notes Question Part Points
Submissions Used 1 2 3 4 5 6 2.5/2.5 2.5/2.5 2.5/2.5 2.5/2.5 2.5/2.5 2.5/2.5 1/3 1/6 2/6 1/6 1/6 1/6 Total 15/15 This question has some parts which are scored using special conditions. Question Parts 1, 2, 3, 4, 5, 6: A deduction of 33% of the points for this question will be subtracted for each submission used beyond 4. Premise The diagram below is a schematic of the experimental setup. Note : Motion to the right (+ x ) and motion in the downward y direction are taken as positive in this lab. Part (a) What is the applied force that sets the two masses in motion? 1 ( m 1 + m 2 ) a m 2 g m 1 a m 1 g ( m 1 + m 2 ) g m 2 Part (b) What is the expression for the net force F net1 acting on mass m 1 ? (Use the following as necessary: g , m T .) a 1 ,
Part (c) What is the expression for the net force F net2 acting on mass m 2 ? (Use the following as necessary: f , m 2 , T and F N F net2, x = \$\$ T ƒ g , .)
Part (d) Consider the vertical motion of mass m 1 . In part (b), you wrote down the net force acting on the mass. .
Based on the above explanation and your answers in parts (b) and (c), what is the expression for the acceleration a of the two masses? Eliminate T and give your answers in terms of m 1 , m 2 , g , and f only.
Finish You have completed the problem!