A mass-spring system with damping consists of a 9-kg mass, a spring with spring constant 3 N/m, a frictional component with damping constant 2 N-sec/m, and an external force given by f(t) = 10 cos (9t) N. Using an 8-92 resistor, construct an RLC series circuit that is the analog of this mechanical system in the sense that the two systems are governed by the same differential equation. Identify the inductance, capacitance, and voltage source required for the RLC circuit. L = henry, C = farad, and E(t) = [ volt
A mass-spring system with damping consists of a 9-kg mass, a spring with spring constant 3 N/m, a frictional component with damping constant 2 N-sec/m, and an external force given by f(t) = 10 cos (9t) N. Using an 8-92 resistor, construct an RLC series circuit that is the analog of this mechanical system in the sense that the two systems are governed by the same differential equation. Identify the inductance, capacitance, and voltage source required for the RLC circuit. L = henry, C = farad, and E(t) = [ volt
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Transcribed Image Text:A mass-spring system with damping consists of a 9-kg mass, a spring with spring constant 3 N/m, a frictional component with damping constant 2 N-sec/m, and an external force given by f(t) = 10 cos (9t) N.
Using an 8-92 resistor, construct an RLC series circuit that is the analog of this mechanical system in the sense that the two systems are governed by the same differential equation.
Identify the inductance, capacitance, and voltage source required for the RLC circuit.
L= henry, C = farad, and E(t) =
volt
C
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