Help With For Loops in Plotting Problem
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Not_sharpest_tool.mat
el 25 de Jul. de 2019
Editada: per isakson
el 25 de Jul. de 2019
I have written this formula and it works well...
The thing is I need to use For loops for the values of "Zeta" to change. I need to be able to plot four graphs with values 0.2, 0.4, 0.6, 0.8 for Zeta.
Should I use the For loop on the C_t formula? or would it be better for only the value of Zeta to change? Either way I can't seem to make it work. Any suggestions on how to proceed?
Zeta=0.2;
Nat_fr=2.5; %Natural Frequency
Beta= sqrt(1-Zeta.^2);
Tan_theta=Beta/Zeta;
theta=atan(Tan_theta); %Angle in radians
t= linspace(0,15,100);
%% Equation
c_t= 1-(1/(sqrt(1-Zeta.^2))).*(exp(-Zeta.*Nat_fr.*t)).*sin((sqrt(1-Zeta)).*Nat_fr.*t+atan((sqrt(1-Zeta))/Zeta));
%% Plot
plot(t,c_t)
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Respuesta aceptada
Raj
el 25 de Jul. de 2019
Editada: Raj
el 25 de Jul. de 2019
temp=1;
t= linspace(0,15,100);
Nat_fr=2.5; %Natural Frequency
for Zeta=0.2:0.2:0.8
Beta (temp,1)= sqrt(1-Zeta.^2);
Tan_theta(temp,1)=Beta(temp,1)/Zeta;
theta(temp,1)=atan(Tan_theta(temp,1)); %Angle in radians
%% Equation
c_t= 1-(1/(sqrt(1-Zeta.^2))).*(exp(-Zeta.*Nat_fr.*t)).*sin((sqrt(1-Zeta)).*Nat_fr.*t+atan((sqrt(1-Zeta))/Zeta));
%% Plot
plot(t,c_t)
hold on
temp=temp+1;
end
legend ('Zeta=0.2','Zeta=0.4','Zeta=0.6','Zeta=0.8');
grid on;
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Más respuestas (1)
per isakson
el 25 de Jul. de 2019
Editada: per isakson
el 25 de Jul. de 2019
Either should work.
I prefer to keep plot() outside the loop because of speed. That requires to make c_t a matrix, which in turn requires an interger loop-counter to reference c_t. Thus, something like this
function cssm1()
Nat_fr=2.5; %Natural Frequency
Zeta = [0.2,0.4,0.6,0.8];
t = linspace(0,15,100);
c_t = nan( length(Zeta), length(t) ); % preallocate
for jj = 1 : length( Zeta )
% Beta= sqrt(1-Zeta(jj).^2);
% Tan_theta=Beta/Zeta(jj);
% theta = atan(Tan_theta); %Angle in radians
%% Equation
c_t(jj,:) = 1-(1/(sqrt(1-Zeta(jj).^2))).*(exp(-Zeta(jj).*Nat_fr.*t)).*sin((sqrt(1-Zeta(jj))).*Nat_fr.*t+atan((sqrt(1-Zeta(jj)))/Zeta(jj)));
end
%% Plot
plot( t, c_t )
end
sqrt(1-Zeta(jj)) is calculated three times in the equation, which is a bit of waste of cpu-cycles. Ok, that's why you calculate Beta.
I put the code in a function to avoid cluttering of my base workspace.
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