Calculateur de Résonance Acoustique Gratuit

Calculez les fréquences de résonance d'une cavité acoustique. Déterminez les modes propres d'un espace clos.

m
m
m

Fréquence de résonance

21.4375 Hz

Resonant Frequency vs Room Length (Lx)

Voir la formule

Formule

Room Acoustic Modes

A rectangular room supports standing waves at specific resonant frequencies determined by its dimensions.

Formula

f(nx,ny,nz) = (c/2) sqrt((nx/Lx)^2 + (ny/Ly)^2 + (nz/Lz)^2)

  • *c* = 343 m/s (speed of sound in air)
  • *Lx, Ly, Lz* = room dimensions
  • *nx, ny, nz* = mode numbers (non-negative integers, not all zero)

    • Axial modes (one non-zero index) are strongest. Tangential (two) and oblique (three) modes are progressively weaker.

    Exemple Résolu

    Room 8 x 5 x 3 m, first axial mode along length (1,0,0).

    1. 01f = (343/2) * sqrt((1/8)^2 + 0 + 0)
    2. 02f = 171.5 * sqrt(0.015625)
    3. 03f = 171.5 * 0.125
    4. 04f = 21.44 Hz

    Questions Fréquentes

    Why do room modes cause problems?

    At resonant frequencies, sound builds up at certain positions and cancels at others, creating uneven bass response. This is why studio control rooms use non-parallel walls or bass traps.

    What are the ideal room dimension ratios?

    Ratios like 1:1.26:1.59 or 1:1.4:1.9 (from Bolt or Louden criteria) distribute modes more evenly, avoiding clustering of resonances.

    Can room modes be eliminated?

    No, but they can be managed with bass traps (absorption at room boundaries), equalization, and choosing good room proportions.

    Apprendre

    Understanding Newton's Laws of Motion

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