Calculadora de Frequência Doppler

Calcule a variação de frequência causada pelo efeito Doppler para ondas sonoras ou eletromagnéticas. Insira velocidades da fonte e do observador.

Hz
m/s
m/s
m/s

Observed Frequency

404.6113 Hz

Frequency Shift-35.3887 Hz

Observed Frequency vs Source Frequency

Ver formula

Formula

Doppler Effect for Sound

The Doppler effect shifts the observed frequency when the source or observer is moving relative to the medium.

Formula

f_obs = f_s * (c + v_obs) / (c + v_src)

Sign convention: v_obs is positive when moving toward the source; v_src is positive when moving away from the observer.

  • Source approaching: lower denominator, higher f_obs
  • Source receding: higher denominator, lower f_obs

    • Exemplo Resolvido

    A 440 Hz siren moves away at 30 m/s, observer stationary.

    1. 01f_obs = 440 * (343 + 0) / (343 + 30)
    2. 02f_obs = 440 * 343 / 373
    3. 03f_obs = 440 * 0.9196
    4. 04f_obs = 404.6 Hz (lower pitch)

    Perguntas Frequentes

    Why does an ambulance siren change pitch as it passes?

    As it approaches, the sound waves are compressed (higher frequency). As it recedes, the waves are stretched (lower frequency). The transition happens as the vehicle passes.

    Does the Doppler effect apply to light?

    Yes, but the relativistic Doppler formula differs. For light, there is no medium, and time dilation must be accounted for.

    What happens if the source moves faster than sound?

    A shock wave (sonic boom) forms. The Doppler formula breaks down and Mach cone analysis is needed.

    Aprender

    Understanding Newton's Laws of Motion

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