Help with nxn matrices
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I am having a bit of trouble with an nxn matrix problem.
The problem is: Write a user-defined MATLAB function that calculates the determinant of a square ( _n x n _ ) matrix, where n can be 2, 3, or 4. For function name and arguments, use D= Determinant(A). The input argument A is the matrix whose determinant is calculate. The function Determinant show first check if the matrix is a square. If it is not, the output D should be the message "The matrix must be square." Use Determinant to calculate the determinant of the following matrices.
It then goes on to give two different matrices, however, that is not what I need help with. My function is what is giving me difficulties. I entered the 3x3 matrix that I was given first, and came up with an error in the 34th line of my code saying that it was incomplete or incorrect. I have italicized this line to make it easier to find. Any help is greatly appreciated. Thank you!
Here is my code:
function D = Determinant( A )
% The function calculates the determinant of an nxn matrix A,
% where n can be 2, 3, or 4.
[n m]=size(A); % n= # of rows in A, m= # of columns in A
if n ~= m % check if A is a square matrix
d ='ERROR' % if not, display error message
disp('The matrix has to be square')
elseif n > 4 % otherwise, check if A is larger than 4x4
d ='ERROR' % if so, display error message
disp('The matrix size cannot be larger than 4 by 4')
elseif n == 2 % otherwise, check if A is 2x2
D=det2by2(A); % if so, call the subfunction for a 2x2 determinant
elseif n == 3 % otherwise, check if A is 3x3
D=det3by3(A); % if so, call the subfunction for a 3x3 determinant
elseif n == 4 % otherwise, check if A is 4x4
D=det4by4(A); % if so, call the subfunction for a 4x4 determinant
end % end the program
%Subfunctions
function D4 = det4by4( A )
% The function calculates the determinant of a 4 by 4 matrix.
Sa=A(2:4,2:4);
Sb=A(2:4,[1 3 4]);
Sc=A(2:4,[1 2 4]);
Sd=A(2:4,1:3);
%
_D4=A(1,1)*det3by3(Sa)-A(1,2)*det3by3(Sb)+A(1,3)*det3by3(Sc)-
A(1,4)*det3by3(Sd);_
%
function d3=det3by3(A)
%
% Evaluating the determinant by expanding using the first row
%
S1=A(2:3,2:3);
%
S2=A(2:3,[1 3]);
%
S3=A(2:3,1:2);
%
d3=A(1,1)*det2by2(S1)-A(1,2)*det2by2(S2)+A(1,3)*det2by2(S3);
%
% Subfunction
%
function d2=det2by2(B)
d2=B(1,1)*B(2,2)-B(1,2)*B(2,1);
end
end
4 comentarios
Claire
el 29 de En. de 2015
Claire
el 29 de En. de 2015
Star Strider
el 29 de En. de 2015
To format your code, highlight it, then use the [{}Code] button. Alternatively, put two spaces between the left window margin and each line of your code.
Claire
el 29 de En. de 2015
Respuesta aceptada
per isakson
el 29 de En. de 2015
Editada: per isakson
el 29 de En. de 2015
The only problem I find is the two ending end. After adding end to the end of each function. (You don't say what kind of trouble you see.)
>> A = rand(4);
>> det(A)
ans =
-0.0261
>> D = Determinant( A )
D =
-0.0261
 
Addendum in response to comment.
>> A=[1 5 4; 2 3 6; 1 1 1]
>> D = Determinant( A )
D =
13
>> det(A)
ans =
13
>>
where my version of your function, Determinant, is attached. I have added an end to the end of each function. Either all functions should be closed with end or none.
3 comentarios
Claire
el 29 de En. de 2015
Editada: per isakson
el 24 de Oct. de 2018
per isakson
el 29 de En. de 2015
Editada: per isakson
el 29 de En. de 2015
The line looks ok to me. I think your problem has something to do with missing or surplus end. I added your example to my answer.
Claire
el 29 de En. de 2015
Más respuestas (1)
Iboi Lucky
el 19 de Oct. de 2018
0 votos
Nice job! Can I please get a similar code that would solve determinant above 4 x 4 matrix please!!
2 comentarios
Steven Lord
el 19 de Oct. de 2018
If this is not a homework assignment, read the Limitations section on the documentation page for the det function. Unless you absolutely positively need the determinant and understand those limitations, use cond or rcond instead. If you do absolutely need the determinant, call det.
If this is a homework assignment, your textbook probably has some pseudocode that you can implement in MATLAB. If not, you could use the idea shown at the start of the Wikipedia article for the determinant to write the determinant of an n-by-n matrix as sums of multiples of the determinants of n (n-1)-by-(n-1) matrices.
Iboi Lucky
el 24 de Oct. de 2018
It's actually my project work, my supervisor asked me to write a code that would solve n by n determinant which is actually my project topic and to be honest, I can't seem to find it anywhere online.
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Más información sobre Creating and Concatenating Matrices en Centro de ayuda y File Exchange.
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