LA uniform rope of lihear mass density A is suspended from the ceiling length lo of the rope is in air and rest in a heap on the floor as shown in th the help of a light spring of force constant k. In equilibrium, a he figure. Height of the heap is negligible as compared to the length of the rope in air. If the rope is pulled down slightly and released, find angular frequency of ensuing oscillations of the rope. Acceleration due to gravity is g. As: Stolgt/2)
LA uniform rope of lihear mass density A is suspended from the ceiling length lo of the rope is in air and rest in a heap on the floor as shown in th the help of a light spring of force constant k. In equilibrium, a he figure. Height of the heap is negligible as compared to the length of the rope in air. If the rope is pulled down slightly and released, find angular frequency of ensuing oscillations of the rope. Acceleration due to gravity is g. As: Stolgt/2)
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Transcribed Image Text:length lo of the rope is in air and rest in a heap on the floor as shown in
with the help of a light spring of force constant k. In equilibrium, a
A uniform rope of linear mass density A is suspended from the ceiling
th the help of a light spring of force constant k. In equilibrium, a
length lo of the rope is in air and rest in a heap on
igure. Height of the heap is negligible as compared to the length of
she rope in air. If the rope is pulled down slightly and released, find
angular frequency of ensuing oscillations of the rope. Acceleration due
o gravity is g. As: Stalgt/)
the floor as shown in
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