Constants I Peri A 0.800-kg block oscillates on the end of a spring whose spring constant is k = 42.0 N/m. The mass moves in a fluid which offers a resistive force F = -bv, where b = 0.610 N · s/m. VU AZO %3D Submit Request Answer Part C Write the displacement x as a function of time t in seconds if at t = 0, x = 0, and at t = 1.00s, x = 0.120m. æ = (0.216m)e-(0.381s *)t sin[(7.24rad/s)t] O x= (0.216m) sin[(7.24rad/s)t] O x = (0.216m) cos[(7.24rad/s)t] O x = (0.216m)e-(0.381s")t cos[(7.24rad/s)t] Submit Request Answer

Need help with parts A, B, and C pls

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Constants I Periodi A 0.800-kg block oscillates on the end of a spring whose spring constant is k = 42.0 N/m . The mass moves in a fluid which offers a resistive force ΔΑ F = -bv, where b = 0.610 N · s/m. А Submit Request Answer Part C Write the displacement x as a function of time t in seconds if at t = 0, x = 0, and at t = 1.00s, x = 0.120m. (0.216m)e-(0.381s-1)t sin[(7.24rad/s)t] x = (0.216m) sin[(7.24rad/s)t] (0.216m) cos[(7.24rad/s)t] (0.216m)e-(0.381s")t cos[(7.24rad/s)t] Submit Request Answer 圓

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A 0.800-kg block oscillates on the end of a spring whose spring constant is k = 42.0 N/m. The Part A mass moves in a fluid which offers a resistive force F = -bv, where b = 0.610 N · s/m. %3D What is the period of the motion? Hν ΑΣφ T = S Submit Request Answer Part B What is the fractional decrease in amplitude per cycle? HV ΑΣφ ΔΑ A Submit Request Answer