Correct codes but no graph shows

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Samuel Suakye
Samuel Suakye on 30 May 2017
Edited: Stephen23 on 6 Jun 2017
What do you do when your codes are correct but the graph does not show And do you add other graphs to be on same graph
  6 Comments
Stephen23
Stephen23 on 31 May 2017
Edited: Stephen23 on 31 May 2017
"What do you do when your codes are correct"
You change your perspective that your code is "correct". Your code is not "correct", in fact it is buggy. When you sit and think "my code is correct" then you will never get any better at looking for bugs, and understanding how to fix them. You need to learn to actually look at your code, and not rely on what you want/imagine/wish your code were doing.
Samuel Suakye
Samuel Suakye on 6 Jun 2017
Edited: Stephen23 on 6 Jun 2017
figure
clear;
clc;
delta=[0.0259, 0.0518, 0.0776, 0.1035, 0.1293]*10;
%delta=0.01:0.09:0.5;
delta1=0.01:0.1:0.5;
hbar=6.5821220*10e-16;
k=8.617385*10e-5;
T=300;
d=[100 150 200]*10e-10;
m = 9.1093897*10e-31;
v = 2.8*10e8;
c = 3.0*10e8;
wp = 10e12;
w = 0.7071;
gamma = (1-((v^2)/(c^2)))^-0.5;
delta2= delta1./(k*T);
figure
hold on
for i = 1:length(d)
wo=(wp^2*m*d(i)^2*delta1.*besseli(1,delta2))./(hbar^2*besseli(0,delta2)).^(0.5);
delta3=delta./(k*T);
therta = asind(1-(w.^2./wo.^2)).^0.5;
wb = gamma.*wo.*cosd(therta);
%wb^2=2
rho=(hbar^2.*2.*besseli(0,delta3))./(wp^2*m*d(i)^2*k*T.*delta3.*besseli(1,delta3));
plot(delta3,rho,'LineWidth',1.5)
end
xlabel('\Delta^*')
ylabel('E_b/E_s')
hold on
grid on
How do I make the graph smoother

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Accepted Answer

KSSV
KSSV on 31 May 2017
Edited: KSSV on 31 May 2017
Change this line:
rho=(wb^2* hbar^2 *besseli(0,delta3))/(wp^2*m*d^2 *k*T*besseli(1,delta3));
to
rho=(wb^2* hbar^2 *besseli(0,delta3))./(wp^2*m*d^2 *k*T*besseli(1,delta3));
You are supposed to do element by element by division. Now it shows plot.
If you have multiple d's, you can follow like this:
clear;
clc;
delta=[0.0259, 0.0518, 0.0776, 0.1035, 0.1293]*10;
delta1=0.01:0.09:0.5;
hbar=6.5821220*10e-16;
k=8.617385*10e-5;
T=300;
d=[100 150]*10e-10;
m = 9.1093897*10e-31;
v = 2.8*10e8;
c = 3.0*10e8;
wp = 10e12;
w = 0.7071;
gamma = (1-((v^2)/(c^2)))^-0.5;
delta2= delta1./(k*T);
figure
hold on
for i = 1:length(d)
wo=(wp^2*m*d(i)^2*delta1.*besseli(1,delta2))/(hbar^2*besseli(0,delta2)).^0.5;
delta3=delta./(k*T);
therta = asind(1-(w^2/wo^2))^0.5;
wb = gamma*wo*cosd(therta);
rho=(wb^2* hbar^2 *besseli(0,delta3))./(wp^2*m*d(i)^2 *k*T*besseli(1,delta3));
plot(delta3,rho,'LineWidth',1.5)
end
xlabel('\Delta^*')
ylabel('E_b/E_s')
%mesh(Vd,wq,real(y))
hold on
grid on
You need to check your code, rho is complex.
  5 Comments
Samuel Suakye
Samuel Suakye on 6 Jun 2017
figure clear; clc; delta=[0.0259, 0.0518, 0.0776, 0.1035, 0.1293]*10; %delta=0.01:0.09:0.5; delta1=0.01:0.1:0.5; hbar=6.5821220*10e-16; k=8.617385*10e-5; T=300; d=[100 150 200]*10e-10; m = 9.1093897*10e-31; v = 2.8*10e8; c = 3.0*10e8; wp = 10e12; w = 0.7071; gamma = (1-((v^2)/(c^2)))^-0.5; delta2= delta1./(k*T); %% figure hold on for i = 1:length(d) wo=(wp^2*m*d(i)^2*delta1.*besseli(1,delta2))./(hbar^2*besseli(0,delta2)).^(0.5); delta3=delta./(k*T); therta = asind(1-(w.^2./wo.^2)).^0.5; wb = gamma.*wo.*cosd(therta); %wb^2=2 rho=(hbar^2.*2.*besseli(0,delta3))./(wp^2*m*d(i)^2*k*T.*delta3.*besseli(1,delta3)); plot(delta3,rho,'LineWidth',1.5) end %% xlabel('\Delta^*') ylabel('E_b/E_s') hold on grid on

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