A 1.40-g spider oscillates on its web, which has a damping constant of b = 3.50×10−5...
A 1.40-g spider oscillates on its web, which has a damping constant of b = 3.50×10−5 kg/s . How long does it take for the spider's amplitude of oscillation to decrease by 18.0 % ?
t = _____ s
Last person didn't get it right, so using another question credit....
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A 1.40-g spider oscillates on its web, which has a damping
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Third times a charm.... I've posted this question twice and gotten them wrong twice. Hopefully someone...
Third times a charm.... I've posted this question twice and gotten them wrong twice. Hopefully someone can help me figure this one out. A 1.40-g spider oscillates on its web, which has a damping constant of b = 3.50×10−5 kg/s . How long does it take for the spider's amplitude of oscillation to decrease by 18.0 % ? The last two answers were 137.18 secs (which was wrong) and 6.88 secs (which was wrong as well).
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