Consider the system spring-mass-damper system shown in Figure Q1. (a) Draw the free body diagram for the system in Figure Q1. (b) Derive the equation of motion for x2 as a function of Fa. The indicated damping is viscous. (c) Determine the transfer function, x2/Fa.

Consider the system spring-mass-damper system shown in Figure Q1. (a) Draw the free body diagram for the system in Figure Q1. (b) Derive the equation of motion for x2 as a function of Fa. The indicated damping is viscous. (c) Determine the transfer function, x2/Fa.

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

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Concept explainers

Maximum power transfer theorem

A resistive load will consume maximum power from a network when the load resistance is equal to the resistance of the network as viewed from the open-circuit terminals, with all energy sources removed leaving only the internal resistances. Physicist Moritz von Jacobi introduced the maximum power transfer theorem in 1940. Therefore, this theorem is also known as Jacobi's law.

Question

pls soon

Q1
Consider the system spring-mass-damper system shown in Figure Q1.
(а)
Draw the free body diagram for the system in Figure Q1.
(b)
Derive the equation of motion for x2 as a function of Fa. The indicated damping is
viscous.
(c)
Determine the transfer function, x2/Fa.

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