The mass of 10 kg m given in the figure is thrown into a tube at a speed of 20 m / s. At the end of the tube k = 40 kN / m c = 0.5 kN-sec / m for an object striking another stop system: a) the greatest displacement after impact, b) the time this displacement occurred, c) Calculate the time required for the motion to be completely damped. (No separation is assumed after impact.
The mass of 10 kg m given in the figure is thrown into a tube at a speed of 20 m / s. At the end of the tube k = 40 kN / m c = 0.5 kN-sec / m for an object striking another stop system: a) the greatest displacement after impact, b) the time this displacement occurred, c) Calculate the time required for the motion to be completely damped. (No separation is assumed after impact.
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The mass of 10 kg m given in the figure is thrown into a tube at a speed of 20 m / s. At the end of the tube k = 40 kN / m c = 0.5 kN-sec / m for an object striking another stop system:
- a) the greatest displacement after impact,
- b) the time this displacement occurred,
- c) Calculate the time required for the motion to be completely damped. (No separation is assumed after impact.)
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