0 votes

p = [2 3 4 5 6 7 8 9 10];
L2 = zeros(size(p));
xchange = zeros(size(p));
f = @(x) (cos(2*x)).*(sin(x)-0.5*x.^2);
for j = 1:length(p)
n = 2^(p(j));
x = linspace(-3,3,n);
dx = x(2)-x(1);
L = 0;
ff = [];
for i = 3:(length(x)-2)
ff = (-f(x(i+2))+6*f(x(i+1))-3*f(x(i))-2*f(x(i-1)))/(6*dx);
%ff = (-1*x(i+2)+6*x(i+1)-3*x(i)-2*x(i-1))/(6*dx);
L(i) = dx*((f(x(i))-ff)^2);
L = L + L(i);
end
%ff(1:2) = ff(3);
%ff(n-1:n) = ff(n-2);
L2(j) = L.^0.5;
xchange(j) = dx;
end
plot(log(xchange),log(L2))
hold on
Hi, can anyone help me with this. I have been spending hours to solve the error printed in the command window below;
"Unable to perform assignment because the left and right sides have a different number of
elements.
Error in Untitled2 (line 24)
L2(j) = L.^0.5;"

2 Comments
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Geoff Hayes
Geoff Hayes on 18 Mar 2019
Mohammad - in the line of code
L2(j) = L.^0.5;
L2 is a 9x9 matrix and L is an array of different lengths (depending upon p). So the above code is trying to assign an array to a scalar element of your L2 matrix. Do you really mean to assign an array here? Should L2 be a cell array so that you can assign differently sized vectors/arrays to it?
Mohammad Ezzad Hamdan
Mohammad Ezzad Hamdan on 18 Mar 2019
Thank you for your reply,
i have changed the two lines below....
L2 = zeros(1,length(p));
xchange = zeros(1,length(p));
... and yet still getting the same error message.

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 Accepted Answer

Matt J
Matt J on 18 Mar 2019
Edited: Matt J on 18 Mar 2019

0 votes

for i = 3:(length(x)-2)
ff(i) = (-1*x(i+2)+6*x(i+1)-3*x(i)-2*x(i-1))/(6*dx);
L = L + dx*((f(x(i))-ff(i))^2);
end

4 Comments
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Mohammad Ezzad Hamdan
Mohammad Ezzad Hamdan on 18 Mar 2019
x(i+2) , x(i+1), x(i) and x(i-1) terms should be substituted in f from the 4th line.
Matt J
Matt J on 18 Mar 2019
Please Accept-click the answer if you are not getting the error anymore.
Mohammad Ezzad Hamdan
Mohammad Ezzad Hamdan on 18 Mar 2019
still getting error message
Matt J
Matt J on 18 Mar 2019
It runs fine for me.
p = [2 3 4 5 6 7 8 9 10];
L2 = zeros(size(p));
xchange = zeros(size(p));
f = @(x) (cos(2*x)).*(sin(x)-0.5*x.^2);
for j = 1:length(p)
n = 2^(p(j));
x = linspace(-3,3,n);
dx = x(2)-x(1);
L = 0;
ff = [];
for i = 3:(length(x)-2)
ff = (-f(x(i+2))+6*f(x(i+1))-3*f(x(i))-2*f(x(i-1)))/(6*dx);
%ff = (-1*x(i+2)+6*x(i+1)-3*x(i)-2*x(i-1))/(6*dx);
L = L + dx*((f(x(i))-ff)^2);
end
%ff(1:2) = ff(3);
%ff(n-1:n) = ff(n-2);
L2(j) = L.^0.5;
xchange(j) = dx;
end
plot(log(xchange),log(L2))
untitled.png

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