In solid mechanics, we have what we call the deformation tensor F, which is the gradient of the deformation ( =nabla(displacement field)+Identity(3) ). Is it possible to differentiate an expression depending on F w.r.t F?
![]() | 1 | initial version |
In solid mechanics, we have what we call the deformation tensor F, which is the gradient of the deformation ( =nabla(displacement field)+Identity(3) ). Is it possible to differentiate an expression depending on F w.r.t F?
![]() | 2 | None |
In solid mechanics, we have what we call the deformation tensor F, which is the gradient of the deformation ( =nabla(displacement field)+Identity(3) ). Is it possible to differentiate an expression depending on F w.r.t F?
![]() | 3 | retagged |
In solid mechanics, we have what we call the deformation tensor F, which is the gradient of the deformation ( =nabla(displacement field)+Identity(3) ). Is it possible to differentiate an expression depending on F w.r.t F?
![]() | 4 | None |
In solid mechanics, we have what we call the deformation tensor F, which is the gradient of the deformation ( =nabla(displacement field)+Identity(3) ). Is it possible to differentiate an expression depending on F w.r.t F??
Is it not implemented yet?