0. ** As illustrated in Figure 5-58, a mass, m, is on a fric- tionless incline with angle 0. A massless cord connects this to a second mass, m,, that hangs vertically. Assume that the pulley is frictionless and massless. The system is in equilibrium and not moving. What must be the rela- tionship between the two masses? Use the component- free vector method to solve this problem.
0. ** As illustrated in Figure 5-58, a mass, m, is on a fric- tionless incline with angle 0. A massless cord connects this to a second mass, m,, that hangs vertically. Assume that the pulley is frictionless and massless. The system is in equilibrium and not moving. What must be the rela- tionship between the two masses? Use the component- free vector method to solve this problem.
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Transcribed Image Text:Section 5-5 Component-Free Solutions
60. ** As illustrated in Figure 5-58, a mass, m, is on a fric-
tionless incline with angle 0. A massless cord connects
this to a second mass, m,, that hangs vertically. Assume
that the pulley is frictionless and massless. The system is
in equilibrium and not moving. What must be the rela-
tionship between the two masses? Use the component-
free vector method to solve this problem.
m1
m2
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