3 Factors fall into actions for this to happen. Amplitude of the wave frequency of the wave and wavelength. The amplitude determines the tone of the sound waves the frequency the pitch and the wavelength the type of wave i.e. which instrument or person is producing it. The different combinations provide specific identifications of the substances producing these sounds and what type of sounds they are.
Very small bones of the middle ear pass the vibration from the ear drum to oval window. They are malleus, incus and steps. Then the fluid vibrates between oval and round window in the cochlea.
The three tiny bones called as stapes, incus and malleus pass the vibration to oval window and then to cochlea. This occurs in the middle ear.
Auditory nerve REALLY
energy
by movement or air molecules which you produce from your mouth its basically the vibrations answer by manohar madhavarapu
answ2. Very much more than you should expose your precious hearing to. One should wear hearing protectors when using a rifle regularly.When you are in control of the shooting, some of the muscles of the ear alter the transmission ratio through the malleus and incus. This is where some of the control of the range of hearing comes from.But these days there are impulse-activated hearing protectors, that offer some protection. But not as much as good ear muffs.
Ideally (as in, if things in science were perfect and all transfers of energy were completely transferable) no, sound is not necessarily made when matter vibrates. What do you mean by matter vibrating? like... atoms vibrating or chunks of ice vibrating or what?
The sound produced by a glass is dependent on how quickly the glass is able to vibrate. The speed of its vibrations is dependent on the mass involved. It takes more energy to move more mass. So the more mass you include in the system (in this case water) the slower the vibrations.
The speed of the bee's wings produces a 'hum' which falls within the range of our hearing. The crow's wings do produce a 'note' but it's too low for our ears to detect. Human hearing range falls roughly between 20 Hz and 20,000 Hz,
energy
No, the act of listening does not produce vibrations, unless you mean that being exposed to sound causes vibrations in your tympanic membrane. That is a part of the mechanism of hearing. Hearing and listening are two different things.
sound waves dont produce vibrations, vibrations are sound waves.
Weak vibrations produce soft or quieter sounds.
These waves in the air are called Sound waves, waves that vibrate in the air and if your hearing is good these vibrations will vibrate our ear drums and cause us to hear them as noise or sound.
yes
Organ of Corti is the hearing organ and it rests on basilar membrane; consists of supporting cells and hair cells. Axons of the neurons that begin around the organ of Corti, extend in the cochlear nerve to the brain to produce the sensation of hearing.
when you creat vibrations
will vibrate at a set frequency to produce a musical tone when struck. The vibrations produced can be used to assess a person's ability to hear various sound frequencies.
they produce electrical enery which turns into vibrations
When you do fast motions you push the air and it producers vibrations.
its produces a lot of oxygen