A 2.0 kg collar is attached to a spring of constant 800 N/m and may slide on a horizontal rod (Figure 3 below). If the collar is moved 50 mm from its equilibrium position and released: collar rod Figure 3 (a) If the collar slides without friction, determine the displacement at t = 1.0 s after release. If the collar has friction with rod acting as a viscous damper (b) with the damping coefficient 40.0 N.s/m, determine the displacement at t = 1.0 s after release.
A 2.0 kg collar is attached to a spring of constant 800 N/m and may slide on a horizontal rod (Figure 3 below). If the collar is moved 50 mm from its equilibrium position and released: collar rod Figure 3 (a) If the collar slides without friction, determine the displacement at t = 1.0 s after release. If the collar has friction with rod acting as a viscous damper (b) with the damping coefficient 40.0 N.s/m, determine the displacement at t = 1.0 s after release.
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Transcribed Image Text:A 2.0 kg collar is attached to a spring of constant 800 N/m and
may slide on a horizontal rod (Figure 3 below). If the collar is
moved 50 mm from its equilibrium position and released:
3.
collar
rod
Figure 3
(а)
If the collar slides without friction, determine the
displacement at t = 1.0 s after release.
If the collar has friction with rod acting as a viscous damper
(b)
with the damping coefficient 40.0 N.s/m, determine the
displacement at t = 1.0 s after release.
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