For loops step through time and update variable
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I'm trying to create a for loop that updates a variable that can then be used as the new input to get the next variable
My current code is:
% initialise
C=100;
dL=0.01
L=0:dL:0.2; % size 21
A=zeros(size(L))
B=zeros(size(L))
A(1)=300 % initial value for A
for i=size(L)
B(i)=A(i-1)-(C*L(i)) % using old A to get current B
A(i)=B(i-1) % updating current A to equal old B answer
end
It works for the inital value, then rest are zeros. I'm confused because they both depend on eachother
2 Comments
Dyuman Joshi
on 13 Mar 2023
Edited: Dyuman Joshi
on 13 Mar 2023
You have not defined the loop index/counter nor the variable 'constant'. Please update your code.
Answers (2)
Dyuman Joshi
on 13 Mar 2023
Edited: Dyuman Joshi
on 13 Mar 2023
The problem is in your loop indexing. size returns a row vector, and when you use a row vector as a loop index, it considers the elements of the row vectors as loop indices, see below -
constant=100;
dL=0.01;
L=0:dL:0.2; % size 1x21
A=zeros(size(L));
B=zeros(size(L));
A(1)=300; % initial value for A
for i=size(L)
i
end
%Use numel to get number of elements on an array
%and initialise a vector to use as indices
for k=2:numel(L)
B(k)=A(k-1)-(constant*L(k)); % using old A to get current B
A(k)=B(k-1); % updating current A to equal old B answer
end
A
B
As indexing in MATLAB starts at 1, k needs to start from 2, as (k-1) is used as an index.
5 Comments
Dyuman Joshi
on 14 Mar 2023
Edited: Dyuman Joshi
on 14 Mar 2023
As you stated in another comment, B(1) should be 300.
Is this what you are looking for?
If not, please provide the expected output, so that it is easier to formulate the loop.
constant=100;
dL=0.01;
L=0:dL:0.2; % size 1x21
A=zeros(size(L));
B=zeros(size(L));
A(1)=300;
B(1)=300;
for k=2:numel(L)
B(k)=A(k-1)-(constant*L(k)); % using old A to get current B
A(k)=B(k-1); % updating current A to equal old B answer
end
A
B
VBBV
on 14 Mar 2023
C=100;
dL=0.01
L=0:dL:0.2; % size 21
A=zeros(size(L));
B=zeros(size(L));
A(1)=300; % initial value for A
for k= 1:length(L)-1
B(k+1)=A(k)-(C*L(k)); % using old A to get current B
A(k+1)=B(k); % updating current A to equal old B answer
end
A
B
hold on
plot(A)
plot(B)
3 Comments
VBBV
on 15 Mar 2023
Edited: VBBV
on 15 Mar 2023
Now you introduce a new condition, the first B value should = 300 at L = 0,
In such case, B(1) = 300 must be initialized like you did for A(1) = 300
Please clarify what is the expected output
C=100;
dL=0.01
L=0:dL:0.2; % size 21
A=zeros(size(L));
B=zeros(size(L));
A(1)=300; % initial value for A
B(1) = 300; % according to your new comment
for k = 2:length(L)
B(k)=A(k-1)-(C*L(k)); % using old A to get current B
A(k)=B(k-1); % updating current A to equal old B answer
end
A
B
hold on
plot(A)
plot(B)
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