![Use d'Alembert's principle to develop the equation of motion of the system shown in the figure below. Write the expression for \omega_n, \xi and the frequency response function (amplitude and phase). Use d'Alembert's principle to develop the equation of motion of the system shown in the figure below. Write the expression for \omega_n, \xi and the frequency response function (amplitude and phase).](https://homework.study.com/cimages/multimages/16/08.25.13197565675717131908.jpg)
Use d'Alembert's principle to develop the equation of motion of the system shown in the figure below. Write the expression for \omega_n, \xi and the frequency response function (amplitude and phase).
![Use D 'Alembert's theory to confirm the 'dynamic equilibrium' of the system shown" : r/EngineeringStudents Use D 'Alembert's theory to confirm the 'dynamic equilibrium' of the system shown" : r/EngineeringStudents](https://i.redd.it/3su4byhpvha61.jpg)
Use D 'Alembert's theory to confirm the 'dynamic equilibrium' of the system shown" : r/EngineeringStudents
![SOLVED: Problem 3. [D'Alembert formula; energy density of the wave] Consider the following initial value problem for the wave equation on R: utt(r,t) = cus(r,t) eR u(z,0) = arctan f "(1,0) Solve SOLVED: Problem 3. [D'Alembert formula; energy density of the wave] Consider the following initial value problem for the wave equation on R: utt(r,t) = cus(r,t) eR u(z,0) = arctan f "(1,0) Solve](https://cdn.numerade.com/ask_images/339545c188094be4be8ea6a8382a994b.jpg)