By expressing partial differential equations of motion in matrix notation, utilizing the integrating matrix as a spatial operator, and applying the boundary conditions, the resulting ordinary differential equations can be cast into standard eigenvalue form upon assumption of the usual time dependence. As originally developed, the technique was limited to beams having continuous mass and stiffness properties along their lengths. Integrating matrix methods are extended to treat the differential equations governing the flap, lag, or axial vibrations of rotating beams having concentrated masses. Inclusion of concentrated masses is shown to lead to the same kind of standard eigenvalue problem as before, but with slightly modified matrices
Analysis of deformations, stresses, and vibration modes of rotating net in hypersonic air strea
Gyroscopic control of spin rate or orientation of rigid bodies constrained to rotate about fixed axi
Celestial mechanics perturbation methods applied to problem of describing motion of rigid artificial...
The integrating matrix technique of computational mechanics is extended to include the effects of co...
Nonlinear beam kinematics are developed and applied to the dynamic analysis of a pretwisted, rotatin...
Averaging technique applied to variational equations describing rotational motions of rigid triaxial...
Using the Newtonian method, the equations of motion are developed for the coupled bending-torsion st...
Two methods for studying the free-vibration characteristics of a large split-blanket solar array in ...
The proposed effort involved development of numerical procedures for efficient solution of free vibr...
The use of integrating matrices in solving differential equations associated with rotating beam conf...
The utilization of piezoelectric actuators in controlling the structural vibrations of flexible beam...
The development of a general mathematical model and solution methodologies, to examine the behavior ...
The details of implementation of a general numerical procedure developed for the accurate and econom...
An alternative method of analysis to determine the dynamic response of structures subjected to base ...
Application of group theory to numerical integration of motion equations of conservative dynamical s...
Analysis of deformations, stresses, and vibration modes of rotating net in hypersonic air strea
Gyroscopic control of spin rate or orientation of rigid bodies constrained to rotate about fixed axi
Celestial mechanics perturbation methods applied to problem of describing motion of rigid artificial...
The integrating matrix technique of computational mechanics is extended to include the effects of co...
Nonlinear beam kinematics are developed and applied to the dynamic analysis of a pretwisted, rotatin...
Averaging technique applied to variational equations describing rotational motions of rigid triaxial...
Using the Newtonian method, the equations of motion are developed for the coupled bending-torsion st...
Two methods for studying the free-vibration characteristics of a large split-blanket solar array in ...
The proposed effort involved development of numerical procedures for efficient solution of free vibr...
The use of integrating matrices in solving differential equations associated with rotating beam conf...
The utilization of piezoelectric actuators in controlling the structural vibrations of flexible beam...
The development of a general mathematical model and solution methodologies, to examine the behavior ...
The details of implementation of a general numerical procedure developed for the accurate and econom...
An alternative method of analysis to determine the dynamic response of structures subjected to base ...
Application of group theory to numerical integration of motion equations of conservative dynamical s...
Analysis of deformations, stresses, and vibration modes of rotating net in hypersonic air strea
Gyroscopic control of spin rate or orientation of rigid bodies constrained to rotate about fixed axi
Celestial mechanics perturbation methods applied to problem of describing motion of rigid artificial...