Lectures related to Electroacoustic Absorbers: Principles and Performance

Analogues Electrical Schemes of Simple Mechanical Systems

Covers electroacoustic analogies, mechanical systems, and drawing schemes in direct analogy.

Covers electroacoustic analogies, acoustic systems representation, and acoustic losses principles.

Covers the radiation of a loudspeaker and the impact of enclosure dimensions on efficiency.

Electroacoustics: Electrodynamic Transducer

Explores electrodynamic transduction, coupling equations, and the design of electrodynamic transducers like loudspeakers.

A Journey Through the Fascinating World of Waves

Explores the history and future of waves, from remote sensing to wireless networks and 'smart dust', highlighting their impact on various fields.

Waves in Inhomogeneous Medium

Explores waves in inhomogeneous media, covering initial and boundary conditions, numerical stability, eigen modes, and propagation principles.

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Electromagnetic Waves in Plasmas

Covers the behavior of electromagnetic waves in non-magnetized plasmas and the simplification of equations for non-collisional plasmas.

Waves in Fluids: Basic Properties and Equations

Covers the properties of waves in fluids, focusing on surface waves and their mathematical representation.

Plasma Waves: Two-Fluid Model

Explores plasma waves described by the two-fluid model and the behavior of Langmuir waves.

Electroacoustic Absorbers: Room Modes Equalization

Explores the use of electroacoustic absorbers to equalize room modes effectively.

Quantum Physics: Wave-Particle Duality

Explores wave-particle duality in quantum physics, covering interference, matter waves, and energy quantization.

Room Modes Equalization with Active Electroacoustic Absorbers

Introduces the equalization of room modes using electroacoustic absorbers in low frequencies.

Waves in Fluids: Basic Properties and Equations

Covers the fundamental properties and equations of waves in fluids, focusing on surface waves and their mathematical descriptions.

Reflection and Refraction in Transparent Matter

Explores the laws of reflection and refraction in transparent matter, focusing on wave interaction with dielectric slabs.

Introduction to Electroacoustics

Covers acoustic phenomena at low frequencies and the development of new absorbers.

Interference and Standing Waves

Explores interference in thin films, standing waves on ropes and membranes, and the existence of electromagnetic waves.

Coupling of Waves in Reflectors

Covers the coupling of waves in periodic structures, focusing on the reflection coefficient for one period and the limitations of the Coupling of Modes approach.

Electroacoustic Metamaterials

Explores the development of electroacoustic metamaterials and metasurfaces for noise control and sound absorption.

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