Problem 1:wwwM2A small mass m; rests on but is not attached to a large mass M2 that slides on its base withoutfriction. The maximum frictional force between m; and M2is f. A spring of constant kis attached tothe large mass M2 and to the wall as shown above. b. Determine the maximum amplitude A for simple harmonic motion of the two masses if theyare to move together (i.e. m; must not slip on M2).Answer 1b:c. The two-mass combination is pulled to the right the maximum amplitude found in part (b)and released. Describe the frictional force on the small mass m; during the first half cycleof oscillation.

(b) Maximum Amplitude using the expression for maximum acceleration amax=-ω2A-fm1=km1+M2AA=1+M2m1fk(c) expression for frictional force fs=-m1a=-m1-ω2Acosωt=m1ωAcos2πtT Since cosine function is decreasing in the first half cycle, the friction must also decrease in the first half cycle.

Answered: c. The two-mass combination is pulled…

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c. The two-mass combination is pulled to the right the maximum amplitude found in part (b) and released. Describe the frictional force on the small mass m; during the first half cycle of oscillation.

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Problem 1:
www
M2
A small mass m; rests on but is not attached to a large mass M2 that slides on its base without
friction. The maximum frictional force between m; and M2is f. A spring of constant kis attached to
the large mass M2 and to the wall as shown above.

b. Determine the maximum amplitude A for simple harmonic motion of the two masses if they
are to move together (i.e. m; must not slip on M2).
Answer 1b:
c. The two-mass combination is pulled to the right the maximum amplitude found in part (b)
and released. Describe the frictional force on the small mass m; during the first half cycle
of oscillation.

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