the solution of the forced Mass-Spring-Damper with the following parameters 1040 kg, c= 12480 Ns/m, k= 73000 N/m, undergoing forcing function F(t) = 8300 cos(130) m takes the form (t) -e"(A, cos(5.8474 t) + Az sin(5.8474 t)) + 0.0432 cos(13t-2.1354). Note that C (6), w (5.8474), A (0.0432) and & (2.1354) have already been determined. Given the initial conditions: z(0) 0.086m and a(0)- 3m/s find the exact solution. Enter your answers for A, and A, to four decimal places in the appropriate boxes below: A2
the solution of the forced Mass-Spring-Damper with the following parameters 1040 kg, c= 12480 Ns/m, k= 73000 N/m, undergoing forcing function F(t) = 8300 cos(130) m takes the form (t) -e"(A, cos(5.8474 t) + Az sin(5.8474 t)) + 0.0432 cos(13t-2.1354). Note that C (6), w (5.8474), A (0.0432) and & (2.1354) have already been determined. Given the initial conditions: z(0) 0.086m and a(0)- 3m/s find the exact solution. Enter your answers for A, and A, to four decimal places in the appropriate boxes below: A2
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The solution of the forced Mass-Spring-Damper with the following parameters
1040 kg, c= 12480 Ns/m, k = 73000 N/m, undergoing forcing function F(t) = 8300 cos(13t)
m%3=
takes the form
z(t) =e"(A cos(5.8474 t) + Az sin(5.8474 t)) +0.0432 cos(13t- 2.1354).
Note that Cu (6), w (5.8474), A (0.0432) and & (2.1354) have already been determined.
Given the initial conditions:
z(0)
-0.086m and 2(0) - 3m/s
find the exact solution.
Enter your answers for A, and A, to four decimal places in the appropriate boxes below:
A2 :
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