The purpose of this paper is to extend the continuous-mass transfer matrix method (CTMM) and the lumped-mass transfer matrix method (LTMM) to determine the natural frequencies and the associated mode shapes of the uniform or non-uniform beams carrying any number of point masses, translational springs and/or rotational springs with various classical or non-classical boundary conditions. To this end, a continuous beam is subdivided into several (massive or massless) beam segments with any two adjacent beam segments connected by a node, and then each kind of concentrated elements (including a point mass, a translational spring together with a rotational spring) is attached to each node (including each end of the beam). In such way, one may easily establish the mathematical model of a uniform or non-uniform beam with various (classical or non-classical) boundary conditions by only adjusting the cross-sectional area and length of each beam segment, and the stiffness constants of each translational spring and rotational spring. It is evident that, for any node without attachments, the associated physical quantity for each kind of concentrated elements is equal to zero at that node.