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The displacement from equilibrium of

  1. The displacement from equilibrium of an oscillating weight suspended by a spring is given by y(t) = 2 cos 6t, where y is the
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    2. Anonymous asked by Anonymous
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  2. The displacement from equilibrium of an oscillating weight suspended by a spring is given by y(t) = 2 cos 6t, where y is the
    1. answers icon 0 answers
    2. Anonymous asked by Anonymous
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  3. A mass m is attached to a spring of constant k. The spring oscillates in simple harmonic motion (amplitude A). In terms of A:a)
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    2. Joe asked by Joe
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  4. The displacement from equilibrium of an oscillating weight suspended by a spring and subject to the damping effect of friction
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    2. Anonymous asked by Anonymous
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  5. A particle on a wave starts with a displacement of 3 cm above equilibrium. As the wave movesleft at 2 m/s, the particle reaches
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  6. A particle on a wave starts with a displacement of 3 cm above equilibrium. As the wave movesleft at 2 m/s, the particle reaches
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  7. The displacement of a spring vibrating in damped harmonic motion is given by y(t) = 4e^-3t sin(2pi*t) where y = displacement and
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    2. Greg asked by Greg
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  8. What would the shape of the graph have to be to correctly show the acceleration, of a particle undergoing Simple Harmonic Motion
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  9. A 5 kg mass attached to a spring passes its equilibrium point moving at 390 m/s. If the spring constant is 1450 N/m, what is the
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    2. Hi asked by Hi
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  10. A simple pendulum of the length 0.350 m starts from rest at a max displacement of 10 degrees. from equilibrium position.a) At
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    2. Derrick M. asked by Derrick M.
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