In Sl units, the position x of a spring-loaded electromagnetic valve varies over timet in the mannerdescribed by the 2nd order ODE* + ax +(B+ K)x = KThe term on the RHS is designed so that, if x is disturbed from its rest position, then it automaticallyreturns, ideally, after a short period of time with no overshoot.1the rest position of the system is x =When a = 1, B= 1 and K =4'a) Suppose that this system is at rest for the period 0 < t < 3, but at t = 3 the system is disturbed.Solve the ODE 'by hand' with initial conditions x(3)=and x(3)= 2; and b) It is suggested that using a system with a = 8, B = 16 and K = 4 would return to its rest position1ofin a more desirable way.Use MATLAB (include a screenshot) to solve this new ODE with initial conditions x(3)=and*(3)= 2,115

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In Sl units, the position x of a spring-loaded electromagnetic valve varies over timet in the manner described by the 2nd order ODE * + ax +(B + K)x = K The term on the RHS is designed so that, if x is disturbed from its rest position, then it automatically returns, ideally, after a short period of time with no overshoot. When a = 1,B = 1 and K = 1 the rest position of the system is x = 4' 5 a) Suppose that this system is at rest for the period 0

In Sl units, the position x of a spring-loaded electromagnetic valve varies over timet in the manner described by the 2nd order ODE * + ax +(B + K)x = K The term on the RHS is designed so that, if x is disturbed from its rest position, then it automatically returns, ideally, after a short period of time with no overshoot. When a = 1,B = 1 and K = 1 the rest position of the system is x = 4' 5 a) Suppose that this system is at rest for the period 0

Linear Algebra: A Modern Introduction

4th Edition

ISBN:9781285463247

Author:David Poole

Publisher:David Poole

Chapter2: Systems Of Linear Equations

Section2.5: Iterative Methods For Solving Linear Systems

Problem 20EQ

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Question

In Sl units, the position x of a spring-loaded electromagnetic valve varies over timet in the manner
described by the 2nd order ODE
* + ax +(B+ K)x = K
The term on the RHS is designed so that, if x is disturbed from its rest position, then it automatically
returns, ideally, after a short period of time with no overshoot.
1
the rest position of the system is x =
When a = 1, B= 1 and K =
4'
a) Suppose that this system is at rest for the period 0 < t < 3, but at t = 3 the system is disturbed.
Solve the ODE 'by hand' with initial conditions x(3)=
and x(3)= 2; and

b) It is suggested that using a system with a = 8, B = 16 and K = 4 would return to its rest position
1
of
in a more desirable way.
Use MATLAB (include a screenshot) to solve this new ODE with initial conditions x(3)=
and
*(3)= 2,
115

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