degrees Consider a 5 kg mass placed on a frictionless incline that makes an angle of 30 with the horizontal. A rope is attached and positioned over a pulley at the top of the incline. A 6 kg mass is suspended from the free end. m1 m2 a) On a separate diagram, draw the FBD of the hanging block, m2, and label all the forces acting on it. b) On a separate diagram, draw the FBD of Block m, and label all the forces. c) Write down Newton's second law for each block, and for each relevant co-ordinate axis. d) From your equations in part d), write down an expression for the acceleration of the system.

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Consider a 5 kg mass placed on a frictionless incline that makes an angle of 30
with the horizontal. A rope is attached and positioned over a pulley at the top of the incline.
A 6 kg mass is suspended from the free end.
degrees
m1
m2
a) On a separate diagram, draw the FBD of the hanging block, m2, and label all the forces
acting on it.
b) On a separate diagram, draw the FBD of Block m, and label all the forces.
c) Write down Newton's second law for each block, and for each relevant co-ordinate axis.
d) From your equations in part d), write down an expression for the acceleration of the
system.
Transcribed Image Text:Consider a 5 kg mass placed on a frictionless incline that makes an angle of 30 with the horizontal. A rope is attached and positioned over a pulley at the top of the incline. A 6 kg mass is suspended from the free end. degrees m1 m2 a) On a separate diagram, draw the FBD of the hanging block, m2, and label all the forces acting on it. b) On a separate diagram, draw the FBD of Block m, and label all the forces. c) Write down Newton's second law for each block, and for each relevant co-ordinate axis. d) From your equations in part d), write down an expression for the acceleration of the system.
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