Forced vibration response Ode45

2014 4월 24
1 답변
업데이트 시간: 2021 9월 23
조회 수: 6 (30일)

0 개 추천

I am suck on a question for an assignment. I can not get matlab to work the following function I keep getting error messages.
function f=t
F=940*sin(10*pi*t);
k=50000;
damping=0.05;
r=3.224;
x(1+t)=(F/k)/sqrt((1-R^2)^2+4*(damping^2)*r^2);
t=1/(10*pi);
[x,t]=ode45('f',[T,T*50],0);
plot(x)

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A Jenkins
A Jenkins 2014년 4월 24일
편집: A Jenkins 2014년 4월 25일
Yes, you need some more practice at MATLAB. Type
doc ode45
to see some example problems to work though that will help you learn how it works.
(Some hints for this code...
  • MATLAB cares what order you write things, and how you declare functions.
  • It is also case sensitive, so that 'r' and 'R' are not the same thing.
  • A function handle should be written @f.)
Ryan
Ryan 2014년 4월 24일
Thanks for the reply. I have read the helper page however it doesn't help me figure out where the error is as I have defined things as it states it should be done.
A Jenkins
A Jenkins 2014년 4월 25일
편집: A Jenkins 2014년 4월 25일
Perhaps you should start with an example that works and slowly make modifications to it until you get to your final result?
Then you will know exactly what change you made and therefore only one line will be incorrect at a time.
(We try not to do people's homework for them, so we only answer specific questions here.)
Ryan
Ryan 2014년 4월 26일
I didn't ask for you to do it for me as you don't have the assignment question. I asked for help with the code I wrote. I have figured out how to do the problem any way.
function [du]=QuestionE(t,u);
du=zeros(2,1);
Damping=0.05;
wn=9.74;
du(1)=-2*Damping*wn*u(1)-u(2)*(wn^2)+(940/530)*sin(10*pi*t);
du(2)=u(1);
end
Damping=0.05;
wn=9.75;
omega=10*pi;
k=50000
m=527.1;
g=9.81;
r=omega/wn;
F=940
wd=wn.*sqrt(1-Damping.^2);
timespan=(50*2*pi)/omega
xst=-(m*g)/k;
v0=0;
A=xst;
B=(v0+Damping*wn*xst)/wd;
[t,u]=ode45(@QuestionE1,[0 timespan],[v0,xst]);
u=exp(-Damping.*wn.*t).*(A.*cos(wd.*t)+B.*sin(wd.*t));
y=(2*Damping*r)/(1-r^2);
fi=atan(y);
X=((F/k)/(sqrt((1-(r^2))^2+4*(Damping^2)*(r^2))))
u1=X.*cos(omega.*t-fi)+u;
plot(t,u,'k')
hold on
plot(t,u1,'b')
title('Forced Vibration Responce')
xlabel('Time')
ylabel('x(t)')

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답변 (1개)

Mohammed Siraj
Mohammed Siraj 2021년 9월 23일

0 개 추천

Write the program for the task given: The motion of the forced vibratory system with spring-
mass system is modeled by the following equation, solve the differential equation and find the
displacement, velocity with respect to time (from 0 to 120 seconds).Analyze the system by
MATLAB Programming and validate the solution by using SIMULINK. Assume m=1 kg, k=2
N/m, F=120N and ω=1 rad/sec.

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도움말 센터File Exchange에서 Ordinary Differential Equations에 대해 자세히 알아보기

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질문:

Ryan
Ryan
2014년 4월 24일

답변:

Mohammed Siraj
Mohammed Siraj
2021년 9월 23일

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