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Engineering dynamics defines principles for designing of buildings, boats, planes etc. It is the branch of mechanics which deals with accelerated motion of objects. It describes the vibrations of lumped-parameter models in mechanical systems. Some of the major concepts in engineering dynamics are work-energy concepts, systems of particles and rigid bodies, Lagrange's equations, linearization of equations of motion etc. Engineering dynamics solve a wide range of industrial problems through its analytical analysis, field measurements and modeling tools which provides pulsations and vibration solutions.
Engineering dynamics is associated with various applications in engineering mechanics. This evaluates free and forced vibration of linear multi-degree of freedom models in mechanical systems as well as matrix eigenvalue problems. Engineering dynamics involves following listed concepts:
- Linearized equations of motion around an equilibrium position
- Analytical dynamics
- Dynamics of rigid bodies
- Vibration-modes and mode-superposition
- Stability of systems around an equilibrium position
- Linear dynamics of continuous systems and discretization
Through engineering dynamics, real mechanical systems are translated into abstract mechanical models as per their mechanical properties, kinetic relationships and kinematic analysis. It also evaluates discrete linear equations of motion with a great concern to stability and modal analysis. It helps in classifying the stability of nonlinear systems as well as linearized stability and also describes classical mechanical phenomena. Engineering dynamics derives equations of motion of rigid and linear-elastic multibody systems.
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Few Topics are:
- Newton's Second Law
- kinetics of particles
- rigid bodies
- force and acceleration
- work and energy
- impulse and momentum principles