consider a linearly damped simple harmonic oscillator with mass m,restoring force contsant k and resistive force...

consider a linearly damped simple harmonic oscillator with mass m,restoring force contsant k and resistive force constant c.if c >sqrt(4mk), work out the expression for the displacement as a function of time and describe the predicted time dependence of the motion.

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genius_generous answered 2 years ago

1.For a damped simple harmonic oscillator, the block has a mass of 2.3 kg and the...

1.For a damped simple harmonic oscillator, the block has a mass of 2.3 kg and the spring constant is 6.6 N/m. The damping force is given by -b(dx/dt), where b = 220 g/s. The block is pulled down 12.4 cm and released. (a) Calculate the time required for the amplitude of the resulting oscillations to fall to 1/8 of its initial value. (b) How many oscillations are made by the block in this time? 2.An oscillator consists of a block...

For a damped harmonic oscillator m = 200 g k = 45 N/m and b =...

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(10pts) Consider the damped forced harmonic oscillator with mass 1 kg, damping coefficient 2, spring constant...

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Generally speaking, a system undergoes simple harmonic motion if there is a restoring force that increases...

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1. A damped driven harmonic oscillator with m=12 kg, k=280 N/m, and b=75 kg/sis subjected to...

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The displacement as a function of time of a 4.0kg mass spring simple harmonic oscillator is...

The displacement as a function of time of a 4.0kg mass spring simple harmonic oscillator is . What is the displacement of the mass at 2.2 seconds? ___________m What is the spring constant? ___________________N/m What is the position of the object when the speed is maximum? ______________m What is the magnitude of the maximum velocity?____________________m/s

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