ME-332: Mechanical vibrations

Lectures in this course (19)

Covers basic definitions and transformations in vibratory mechanics.

Explores the dynamics of a one-dimensional oscillator in free and conservative regimes, including solutions and energy conservation.

Explores the energy approach and solutions for different damping scenarios in vibratory mechanics.

Covers the forced harmonic regime of an oscillator and resonance conditions.

Explores force decomposition, Fourier series, and periodic steady state in forced vibrations.

Explores the general forced regime in 1D oscillators and methods for solving equations.

Explores equations of motion for 2 degrees of freedom systems in the conservative free regime and symmetrical properties.

Explores the Frahm damper in vibratory mechanics and its optimization.

Explores the concept of a generalized oscillator in vibratory mechanics and its application to a two-degree-of-freedom system.

Explores specific solutions and modal base in a generalized conservative oscillator.

Explores the reformulation and resolution of a generalized dissipative oscillator.

Explores the forced oscillator regime in vibratory mechanics, emphasizing clean pulsations and a generalized conservative approach.

Explores vibratory mechanics in continuous systems, covering separation of variables, boundary conditions, and harmonic solutions.

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