Lectures related to Microphone Design Generalities

Covers the science of sound, wave propagation, acoustic properties, and sound wave characteristics.

Explores sound wave propagation in waveguides, room modes, and sound pressure distribution in rooms, highlighting the detrimental effects of room modes on sound reproduction.

Microphone Theory: Pressure & Gradient Microphones

Explores the theory and operation of pressure and gradient microphones, mixed-action microphones, and microphone arrays.

Noise Effects and Measurement

Explores the effects of noise on human perception and the measurement techniques used to assess noise levels.

Room Modes Equalization with Active Electroacoustic Absorbers

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

Loudness and Sound Level

Explores loudness, sound level, perception, scaling, and integration in audio engineering.

Electromagnetic Waves in Plasmas

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

Room Modes Equalization with Electroacoustic Absorbers: Frequency Response

Analyzes the frequency response of a room with electroacoustic absorbers.

Audio Engineering Fundamentals

Introduces audio engineering fundamentals, covering microphone transduction, impedance matching, and directivity control.

Electroacoustic Absorbers: Room Modes Equalization

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

Wave Propagation and Doppler Effect

Explores wave propagation, wave packets, and the Doppler effect for mechanical and electromagnetic waves, including Hubble's law.

Sound Radiation: The Doublet

Explores the theory of sound radiation from a doublet, analyzing directivity and wave interactions.

Sound Pressure Level-meter: Noise Measurement and Evaluation

Explores noise effects, limit values, and sound measurement techniques, including evaluation levels and weighting systems.

Sound Waves in Air: Basics and Applications

Covers the fundamentals of sound waves in air and their practical applications.

Electroacoustics: Notions of Acoustics

Covers fundamental concepts of electroacoustics, including frequency response, sensitivity, efficiency, power, and directivity.

Factors impacting noise

Explores the factors influencing the annoyance level of noise, such as loudness, spectrum, and temporal features.

Doublets and Dipoles: Acoustic Radiation and Directivity in Audio Engineering

Explores acoustic radiation, directivity, and superposition in audio engineering, focusing on doublets, dipoles, and cardioid sources.

Sound Propagation and Building Physics

Explores sound wave properties, radiation, color perception, and noise exposure effects.

Sound & Timbre: Theory and Composition

Explores sound waves, timbre, and music composition through the works of Stockhausen and Penderecki, analyzing harmonic and inharmonic sounds.

Electromagnetic Waves: Wave Equation and Maxwell's Equations

Explores the wave equation for electromagnetic waves, Maxwell's predictions, and the importance of polarization in defining wave properties.