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I have an easy question for you. I want to build a subroutine that calculates F matrix in Fortran. Can you help me?

F=(-(w^2)*(M+A))+(imaginary(i)*w*B)+C

w, M, A, B, C are all known. w is real number. M, A, B, C are matrices sized m*m.. I want to convert all B matrix elements to imaginary number. For instance, its element 453 will change to 453i (complex number). M, A, C do not have anything special. So I hope you can help me to find this F matrix.

Kind regards. SalimTamer

! w is frequency
! M is mass matrix, size(m,n)
! a is added-mass matrix, size(m,n)
! b is damping matrix, size(m,n)
! c is restoring matrix, size(m,n)
! X is excitation force divided by wave length, size(m,1)
! m=n =) (or not invertible)

implicit none
integer :: m,n,i,j
real :: w
real(8) :: M(m,n), a(m,n), , c(m,n), X(m),
complex(8) ::b(m,n)
do i=1,m
   do j=1,n
    C(i,j)=-(w^2)*(M(i,j)+a(i,j))(imaginariy*b(i,j)*w)+c(i,j)+c(i,j)
   enddo
enddo
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The code is a long way from compilable, but is b actually real? –  francescalus Mar 4 at 18:46

1 Answer 1

Fortran has no specific imaginary type, but i can be represented as (0._kind, 1._kind).

Your code has b as complex, but I assume real is meant. Two possibilities are

C(i,j)=-(w**22)*(M(i,j)+a(i,j)) + CMPLX(0._8, b(i,j))*w +c(i,j)+c(i,j)
!                               ^^^^^^^^^^^^^^^^^^^

and

C(i,j)=-(w**22)*(M(i,j)+a(i,j)) + (0._8, 1._8)*b(i,j))*w +c(i,j)+c(i,j)
!                               ^^^^^^^^^^^^^

I've used 8 as the kind, following your code, but generally you'd want to go for something portable. Equally, if my real assumption is correct you know the real and imaginary components of F so you can tidy up.

You don't however, seem to be calculating F, and C itself is being updated, but hopefully you've the idea.

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