Ambient Recording ASF-G XLR Manuel - Sayfa 9
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7. Underwater Acoustics
The acoustic underwater differs in many ways from the airborne sound we are used
to. The sound velocity underwater is varying between 1450 and 1550 m/sec
depending on temperature, salinity and depth. This results in 4 to 4.5 times bigger
wave lengths as well as in a special sound phenomenon called the SOFAR, also known
as Underwater Sound Channel. Horizontally sound can travel over huge distances
whereas vertical propagation is strongly attenuated. Here are some useful advices:
Sound Channels (USC, SSC,...) can be avoided by knowing their local depth
To avoid the noise from braking waves on the boat carcass, take long enough
cables to go down deep enough or prepare to record in greater distance to the
vessel.
Take time for detailed micro-phasing when recording in pools or artificial
environments as bigger wave lengths underwater lead to greater distances
between sound maxima and minima.
Never forget how far low frequencies can spread underwater. Therefore, avoid
touristic areas for documentary shots.
Water owns a reflection factor close to 1. Thus airborne sound virtually can't
couple directly into water. This phenomenon can be used. If barriers reach
close to the water surface (reefs, wave-breakers, e.g.) you can use them as
acoustic barriers, independent of the current depth. This way you may find
acoustic cover in a pool with 1m depth behind an 80cm wooden block, even
though the wavelength underwater wouldn't suggest this.
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