2 A 11.7-kg object hangs in equilibrium from a string with a total length of 5,50 m and a linear masa density of = 0.00200 ka/m. The string is wrapped around two lightfrictionless pulleys that are separated by a distance of d 2.00 m.(a) Determine the tension in the string.EN(b) At what frequency must the string between the pulleys vibrate in order to form the standing-wave pattern shown in Figure b?HzAdditional MaterialsDBook

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A 11.7-kg object hangs in equilibrium from a string with a total length of 5.50 m and a linear mass density of 0.00200 kg/m. The string is wrapped around two ight frictionless pulleys that are separated by a distance ofd- 2.00 m. 斗 (a) Determine the tension in the string IN (b) At what frequency must the string between the pulleys vibrate in order to form the standing-wave pattern shown in Figure b? Hz

A 11.7-kg object hangs in equilibrium from a string with a total length of 5.50 m and a linear mass density of 0.00200 kg/m. The string is wrapped around two ight frictionless pulleys that are separated by a distance ofd- 2.00 m. 斗 (a) Determine the tension in the string IN (b) At what frequency must the string between the pulleys vibrate in order to form the standing-wave pattern shown in Figure b? Hz

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Question

A 11.7-kg object hangs in equilibrium from a string with a total length of 5,50 m and a linear masa density of = 0.00200 ka/m. The string is wrapped around two light
frictionless pulleys that are separated by a distance of d 2.00 m.
(a) Determine the tension in the string.
EN
(b) At what frequency must the string between the pulleys vibrate in order to form the standing-wave pattern shown in Figure b?
Hz
Additional Materials
DBook

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