Question

Three identical masses (A, B, and C) are placed at the corners of a square as shown; the distance

between consecutive corners is 0.30 m. These masses are connected together by three identical

springs; each spring has a spring constant of k = 5:0 N/m. The equilibrium length of each spring

is 0.20 m.

1. Three identical masses (A, B, and C) are placed at the corners of a square as shown; the distance between consecutive corners is 0.30 m. These masses are connected together by three identical springs; each spring has a spring constant of k is 0.20 m. 5.0 N/m. The equilibrium length of each spring A С (a) Draw a free-body diagram that represets the forces acting on mass C (b) Is mass C in equilibrium? (c) Calculate the net force on C. Write each force component in terms of a force magnitude and a unit vector. (d) Calculate the total force on this system of masses. (e) Hence what is the acceleration of the centre-of-mass of ABC? B

Answer 1

O30m eacl spolng diogoual of O.20m O30 xside Square K = S N/m Spoing constant (a) f BD af ass c fcA fee A B O-30 tan O-30 A C feA = force On mass C due fo the spaing CA = Kal) elongakau u spring = Actual lougth-&quili briuu lage O 30-0.20 0-10m SXO.10 SDN 0. SON fea kat) foA = force on mass C due to the spotng ca KA) (0-3019-020) Sumi las O.20 12 N

C isnot iu egui libriu mass be cause tha at force onc tHat is the sum af f and fce will not e 2e0 ane not egual and opposte as hay botl Net force on C O.SON feA fea =1.21N AY - x 0.50 +1.21 cas4sj21Sn4 fnet 0792 1.297 fret - 1.SIN let fuut makes auyle o oi h -axis taud=1.29 O-79 d58.5 (e) Total force on the system (d) Total forces on the m ass systeum feA es as FAC honte accele rahion of Centre ofmass o ABC OM/ shoron frome Nefou's third law fCA 11 fac Fee Ttal forces + 14 wwww