Sound is always produced and heard as a vibration, whether a violin string, vocal chords, or an ear drum. Sound vibrations in our hearing range vary between 20 and 20,000 cycles per second. Sound waves travel in air as vibrating air molecules, and also through water as pressure waves. Underwater microphones, or hydrophones, have long been used to track whale migrations, fish populations and submarines. The devices also service undersea oil wells and map the seafloor.
Major shortcomings of hydrophones include their insensitivity to weak sound vibrations, and also their failure to operate under conditions of high pressures at great water depths. Hydrophones, as well as our own eardrums, typically have an air chamber on the inner side of a vibrating membrane. This design works well in air, but pressure changes under water compress the membrane inward and interfere with its vibration.
Scientists at Stanford University recently improved underwater sound detection by copying the hearing ability of orcas, also called killer whales. These magnificent creatures have specialized ear drums which function over a great range of intensity (loudness), frequency (low to high pitches), and pressure (depth of water). This ability results from orcas being designed with water on both sides of their eardrum. This feature adjusts to pressure changes and allows them to hear clearly at any depth of water. Orcas communicate with squeals and clicks over distances of miles. The newly designed electronic hydrophones have a vibrating membrane enveloped in water and covered with microscopic openings. The tiny holes maintain equal pressure on the sides of the membrane regardless of water depth. Inside the instrument, a laser beam reflects from the membrane and measures small vibrations, somewhat like a DVD player detects a reflected laser signal from a spinning disk. The new underwater detector measures sounds over a frequency range of 17 octaves and a loudness range of 160 decibels with hundreds of times the sensitivity of our own hearing. Most likely, orca whales have hearing ability far beyond even that of the new instruments.
It is typically assumed that orcas and all other creatures have fine-tuned their abilities over millions of years with mutations and natural selection. However, this explanation fails in at least three ways. First, mutations are genetic mistakes and do not increase the complexity or design of living organisms. Second, some of the most impressive designs in nature are found in fossils such as trilobites. The fossil record does not show a progressive increase in design over time. Instead, intelligent design clearly has been present since the Creation. Third, many impressive designs are found in nonliving parts of nature, carbon buckyballs for example.
Their sound recordings can be heard at
Scientists at Stanford University
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