A mass on a spring bounces up and down in simple harmonic motion, modeled by the functions(t) = 2 sint where s is measured in centimeters and t is measured in seconds. Find the rate at whichthe spring is oscillating at t = 3 s. Round your answer to four decimal places.

The equation of distance S(t) as a function of time t is given asS(t) = 2 sin t , To find the…

Answered: A mass on a spring bounces up and down…

Mathematics For Machine Technology

8th Edition

ISBN:9781337798310

Author:Peterson, John.

Publisher:Peterson, John.

Chapter21: Direct And Inverse Proportions

Section: Chapter Questions

Problem 14A: A 10.00-inch diameter pulley rotates at 160.0 rpm. A belt connects this 10.00-inch diameter pulley...

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A 10.00-inch diameter pulley rotates at 160.0 rpm. A belt connects this 10.00-inch diameter pulley with a 6.5-inch diameter pulley. An 8.00-inch diameter pulley is fixed to the same shaft as the 6.50-inch pulley. A belt connects the 8.00-inch pulley with a 3.50-inch diameter pulley. Determine the revolutions per minute of the 3.50-inch diameter pulley. Round the answer to 1 decimal place.
Find the intensity of light at a depth of 12 meter if I0=14 and k=0.7. Round to two decimals.
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A mass on a spring bounces up and down in simple harmonic motion, modeled by the function s(t) = 2 sint where s is measured in centimeters and t is measured in seconds. Find the rate at which the spring is oscillating at t = 3 s. Round your answer to four decimal places.