*Need answer only for the a3.Consider a mass spring system with an external force ?(?) = ?osin?o?. Let's assume ? is the mass of the object attached to the spring, ? is the spring constant, and ? is the damping coefficient. Let's also assume that ?(0) and ?′(0) are the location and speed of the object attached to the spring at time ? = 0. a) Find the general solution of the differential equation governing the motion of the spring, in terms of ?,?,?,?(0),?"(0),?0 and ?0. Your solution shall cover all possible cases including 1. the case with no damping and ?! is not equal to natural frequency of the system, ? =sqrt?/?. 2. the case with no damping and ?! is equal to natural frequency of the system, ? =sqrt?/?. 3. the three cases with damping (overdamped, critically damped, and underdamped). Project 2: Mass Spring SystemDue Date: April 17, 2022Consider a mass spring system with an external force F(t) = F, sin wot. Let's assume m is themass of the object attached to the spring, k is the spring constant, and ß is the dampingcoefficient. Let's also assume that x(0) and x'(0) are the location and speed of the objectattached to the spring at time t = 0.a) Find the general solution of the differential equation governing the motion of the spring, interms of m, k, B,x(0), x'(0), F., and ag. Your solution shall cover all possible casesincluding1. the case with no damping and wo is not equal to natural frequency of the system, w =Vk/m.2. the case with no damping and w, is equal to natural frequency of the system, w =Vk/m.3. the three cases with damping (overdamped, critically damped, and underdamped).

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Answered: *Need answer only for the a3. Consider…

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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*Need answer only for the a3.

Consider a mass spring system with an external force ?(?) = ?osin?o?. Let's assume ? is the
mass of the object attached to the spring, ? is the spring constant, and ? is the damping
coefficient. Let's also assume that ?(0) and ?′(0) are the location and speed of the object
attached to the spring at time ? = 0.
a) Find the general solution of the differential equation governing the motion of the spring, in
terms of ?,?,?,?(0),?"(0),?0 and ?0. Your solution shall cover all possible cases
including
1. the case with no damping and ?! is not equal to natural frequency of the system, ? =
sqrt?/?.
2. the case with no damping and ?! is equal to natural frequency of the system, ? =
sqrt?/?.
3. the three cases with damping (overdamped, critically damped, and underdamped).

Project 2: Mass Spring System
Due Date: April 17, 2022
Consider a mass spring system with an external force F(t) = F, sin wot. Let's assume m is the
mass of the object attached to the spring, k is the spring constant, and ß is the damping
coefficient. Let's also assume that x(0) and x'(0) are the location and speed of the object
attached to the spring at time t = 0.
a) Find the general solution of the differential equation governing the motion of the spring, in
terms of m, k, B,x(0), x'(0), F., and ag. Your solution shall cover all possible cases
including
1. the case with no damping and wo is not equal to natural frequency of the system, w =
Vk/m.
2. the case with no damping and w, is equal to natural frequency of the system, w =
Vk/m.
3. the three cases with damping (overdamped, critically damped, and underdamped).

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Find the general solution

Consider a mass spring system with an external force ?(?) = ?0sin?o?. Let's assume ? is the mass of the object attached to the spring, ? is the spring constant, and ? is the damping coefficient. Let's also assume that ?(0) and ?′(0) are the location and speed of the object attached to the spring at time ? = 0.

a) Find the general solution of the differential equation governing the motion of the spring, in terms of ?,?,?,?(0),?"(0),?o, and ?0. Your solution shall cover all possible cases
including
1. the case with no damping and ?! is not equal to natural frequency of the system, ? =sqrt?/?.
2. the case with no damping and ?! is equal to natural frequency of the system, ? =sqrt?/?.
3. the three cases with damping (overdamped, critically damped, and underdamped).

Consider a mass spring system with an external force F(t) = F, sin w,t. Let's assume m is the
mass of the object attached to the spring, k is the spring constant, and ß is the damping
coefficient. Let's also assume that x(0) and x'(0) are the location and speed of the object
attached to the spring at time t = 0.
a) Find the general solution of the differential equation governing the motion of the spring, in
terms of m, k, B,x(0), x'(0), Fo, and w- Your solution shall cover all possible cases
including
1. the case with no damping and w, is not equal to natural frequency of the system, w =
Vk/m.
2. the case with no damping and wo is equal to natural frequency of the system, :
Vk /m.
3. the three cases with damping (overdamped, critically damped, and underdamped).

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I needed it to be solved using differential equation

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