how can i get the nonzero value of Tdim{i}(1),while i have to start value of k=2:12?

1 Ansicht (letzte 30 Tage)
here is the result:
Tdim{1}
ans =
0
0.6810
0.7002
0.7326
0.7769
0.8241
0.8472
0.8241
0.7769
0.7326
0.7002
0.6810
here is the main code:
% calculation of Rs
theta=0:30*(pi/180):330*(pi/180);
x=ro*cos(theta);
y=ro*sin(theta);
y1=0;
rs=sqrt((x-e).^2+(y-y1).^2);
D=zeros(1000,12);
for i= 1:1000
for j=1:12
D(i,j)=rs(j)./ri(i);
end
end
D;
Rs=num2cell(D,2);
% Value of angle calculation
Tdimnot=(Thotspot-Tinf)./(Tref-Tinf);
alpha=atan2((y-y1),(x-e))*180/pi;
for k=1:12
if alpha(k)<0
alpha(k)=360+alpha(k);
else
alpha(k)= alpha(k);
end
end
for k=1:12
g(k)=alpha(k)*pi/180;
end
% calculation of 1000 matrix of (12,12)
N=1000;
C=cell(1,N);
for i=1:N
A=zeros(12,12);
for k=1:12
for j=1:12
if j==1
A(k,j)=1./(Rs{i}(k))+Bi(i).*log(Rs{i}(k));
else
A(k,j)=((j-1)*((Rs{i}(k)).^(j-1)+(Rs{i}(k)).^(1-j))./(Rs{i}(k))+Bi(i)*((Rs{i}(k)).^(j-1)-(Rs{i}(k)).^(1-j)))* cos((j-1).*g(k));
end
end
end
C{i}=A;
end
% Calculation of Y
N=1000;
Y=cell(1,N);
E=zeros(12,1);
for i=1:N
E=(C{i})\(B{i});
Y{i}=E;
end
% calculation of each 12 dimensionless temperature at pheripheral
N=1000;
Tdim=cell(1,N);
for i=1:N
F=zeros(12,1);
for k=2:12
F(k,:)=1+(Y{i}(1)).*log(Rs{i}(k))+(Y{i}(k))*((Rs{i}(k)).^(k-1)-(Rs{i}(k)).^(k-1)).*cos((k-1).*g(k));
end
Tdim{i}=F;
Please help me in this ,i am trynig to find for last 4 days.

Antworten (1)

Ronit
Ronit am 16 Aug. 2024
Hello Deepesh,
I understand you are trying to ensure that Tdim{i}(1) is nonzero, which can be achieved when its value is derived from the computations involving k=2:12. In your existing code, Tdim{i}(1) is not explicitly calculated, which results in it being zero. To address this, we can compute Tdim{i}(1) as a function of the values computed for k=2:12. One straightforward approach is to calculate Tdim{i}(1) as the average of these values, ensuring it is nonzero and representative of the data. Here's the revised code with this logic incorporated:
% calculation of each 12 dimensionless temperature at peripheral
Tdim = cell(1, N);
for i = 1:N
F = zeros(12, 1);
sum_k_values = 0; % Initialize sum of calculated values for k=2:12
count_k = 0; % Count the number of k values
for k = 2:12
F(k) = 1 + (Y{i}(1)) * log(Rs{i}(k)) + (Y{i}(k)) * ((Rs{i}(k)).^(k - 1) - (Rs{i}(k)).^(k - 1)) * cos((k - 1) * g(k));
sum_k_values = sum_k_values + F(k); % Accumulate the sum
count_k = count_k + 1; % Increment the count
end
% Calculate Tdim{i}(1) as the average of the values from k=2:12
F(1) = sum_k_values / count_k;
Tdim{i} = F;
end
I hope it resolves your query!

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