Use this information to find the spring constant (use g = 9.81 m/s² as the acceleration of gravity). k = 588 The previous mass is detached from the spring and a mass of 14 kilograms is attached. This mass is displaced 0.7 meters below equilibrium and then launched with an initial velocity of 1 meters/second. Find the equation of motion.
Use this information to find the spring constant (use g = 9.81 m/s² as the acceleration of gravity). k = 588 The previous mass is detached from the spring and a mass of 14 kilograms is attached. This mass is displaced 0.7 meters below equilibrium and then launched with an initial velocity of 1 meters/second. Find the equation of motion.
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![A mass of 18 kilograms stretches the spring 0.3 meters.
Use this information to find the spring constant (use g = 9.81 m/s² as the acceleration of gravity).
k = 588
The previous mass is detached from the spring and a mass of 14 kilograms is attached. This mass is
displaced 0.7 meters below equilibrium and then launched with an initial velocity of 1 meters/second. Find
the equation of motion.
Note: When solving this problem, consider positions below equilibrium to be positive.
x(t) =](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F09d105f3-6c69-4cbc-8997-6988f1733e6f%2F5d0624e2-3576-44b6-a0ea-e7debcd08f95%2Frgcq3xb_processed.png&w=3840&q=75)
Transcribed Image Text:A mass of 18 kilograms stretches the spring 0.3 meters.
Use this information to find the spring constant (use g = 9.81 m/s² as the acceleration of gravity).
k = 588
The previous mass is detached from the spring and a mass of 14 kilograms is attached. This mass is
displaced 0.7 meters below equilibrium and then launched with an initial velocity of 1 meters/second. Find
the equation of motion.
Note: When solving this problem, consider positions below equilibrium to be positive.
x(t) =
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