Infrasound is audio frequencies below the level of human hearing at 20Hz (Hertz) Infrasound can be found right through nature, from Thunderstorms, being next to a stormy beach, Volcanic erruptiopns, Atomic weapons, Wildlife, to faulty electrical equipment: It is in fact a deep base rummble or hum. Other sources of infrasound include earthquakes, pounding surf, waterfalls, calving of glacial ice, tidal waves, aurora borealis (0.1 - 0.01 Hz), solar flares, solar winds, hurricanes, thunderstorms, the jet stream (30-40Hz),
winds in caverns (20-30 Hz.), etc. Infrasound is still a new science and the effects on the human body are still not understood. Severe damage can be cause when the audio frequency matches that of the human body: During World War II, Adolf Hitler's engineers used infrasound to stir up anger in the large crowds that had gathered to hear Hitler. The result was a nation filled with anger and hatred and experimented with a weapon that would kill the enemy, just by sound (Song, Kate Bush) Experiment Iv lyrics)) Currently the US Government tried to invent similar equipment during the Gulf War (was actually just loud Heavy metal) In Nature, It has been known that certain whiles are able to stun their prey with powerful blasts of inaudible sounds. Called 'gunshots,' whales focus these powerful blasts at large squid and other fish to paralyze and catch them. In some instances, they have been known to burst their prey apart by tonal projection alone." Even though you cannot hear infrasound, it's effects can be felt. These range from feeling uneasy, to being watched, to actually seeing things that are not there: Certain Paranormal investigators look at Infrasound as a possible explanation for Paranormal events. Man-made structures, such as engines, cars, buses, trains, motorcycles, and airplanes also produce infrasound. John Cody also noted that pilots exposed to infrasonic vibrations of jet chassis experience a reduction in "vision, speech, intelligence, orientation, equilibrium, ability to accurately discern situations, and make reasonable decisions." Studies show the different ways in which infrasound affects the human body. As infrasound pitches, or cycles per second, decrease, deadly effects on the body increase. Infrasound disrupts the normal functioning of the middle and inner ear, leading to nausea, imbalance, impaired equilibrium, immobilization, and disorientation. Exposure to even mild doses of infrasound can lead to illness. Increased intensities of infrasound can result in death.
These are a few examples of low frequency and their effects: 12 Cycles Per Second (Hz) - Walt Disney and his artists accidentally experienced infrasound on one occasion. A cartoon sound effect was slowed from 60 cycles per second to 12 cycles per second via a tape-editing machine and was amplified through the theater system. The resulting tone, though brief in duration, produced in the entire crowd nausea that lingered for several days. 1 - 10 Cycles Per Second (Hz) - "Lethal infrasonic pitch lies in the 7 cycle range. Small amplitude increases affect human behavior in this range. Intellectual activity is first inhibited, blocked, and then destroyed. As the amplitude is increased, several disconcerting responses have been noted. These responses begin a complete neurological interference. The action of the medulla is physiologically blocked, its autonomic functions cease." (source; the Sonic Weapon of Vladimir Gavreau, by Gerry Vassilatos) 7 Cycles Per Second (Hz) - The most profound effects at this infrasonic level occur here. Seven Hz "corresponds with the median alpha-rhythm frequencies of the brain. It is also commonly alleged that this is the resonant frequency of the body's organs and hence organ rupture and death can occur at high-intensity exposures." (source; 'Acoustic Trauma: Bioeffects of Sound,' by Alex Davies) ---- There are quite a few websites dedicated to this subject and it's quite easy t oconstruct your own experiments but with caution and guidance as Infrasound although seems harmless.. can be fatal or cause lasting damage to your body and those around you. Sean Devon & Cornwall Paranormal Society.
Infrasound.
Humans use infrasound for various purposes such as detecting earthquakes, monitoring volcanic activity, and studying wildlife behavior. Infrasound is also utilized in communication systems and for medical imaging. Some studies suggest that exposure to certain infrasound frequencies may have physiological effects on humans.
Infrasound typically refers to sound waves with frequencies below the threshold of human hearing, which is generally considered to be below 20 Hz. Thus, the range of frequencies for infrasound is usually from 0.1 Hz to 20 Hz.
Humans cannot consciously hear infrasound, as it falls below the threshold of normal hearing (below 20 Hz). However, there is some evidence that infrasound can be perceived as a feeling of unease or fear, as it may cause vibrations within the body.
Infrasound waves are longitudinal waves. This means that the particles in the medium through which the wave is travelling move parallel to the direction of the wave propagation.
Infrasound.
Humans use infrasound for various purposes such as detecting earthquakes, monitoring volcanic activity, and studying wildlife behavior. Infrasound is also utilized in communication systems and for medical imaging. Some studies suggest that exposure to certain infrasound frequencies may have physiological effects on humans.
Infrasound typically refers to sound waves with frequencies below the threshold of human hearing, which is generally considered to be below 20 Hz. Thus, the range of frequencies for infrasound is usually from 0.1 Hz to 20 Hz.
yes
Humans cannot consciously hear infrasound, as it falls below the threshold of normal hearing (below 20 Hz). However, there is some evidence that infrasound can be perceived as a feeling of unease or fear, as it may cause vibrations within the body.
Infrasound has longer wavelengths compared to ultrasound. Infrasound waves have frequencies below the range of human hearing (below 20 Hz), while ultrasound waves have frequencies above the range of human hearing (above 20 kHz), leading to their differences in wavelength.
infrasounds
Infrasound waves are longitudinal waves. This means that the particles in the medium through which the wave is travelling move parallel to the direction of the wave propagation.
infrasound
i dont know im only 3
infrasound
Ultrasound is above 18 kilohertz. Infrasound is below 20 hertz.