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  • Many of us take for granted a very extraordinary organ... our ears

  • to understand the ear, we need to understand what sound is.

  • the speakers you are listening to right now are vibrating...flexing in and out causing

  • a wave of pressure through the air

  • The frequency of these waves, or the speed at which the sound creating surface moves

  • back and forth affects the pitch of the sound The level of air pressure in each wave is

  • directly related to how loud the sound is.

  • the outer part of our ear catches these waves. It faces forward and has a specially designed

  • structure of curves helping us to determine the direction of sound, and emphasize frequencies

  • used in human speech

  • Now that the sound waves are caught, they travel through the ear canal and strike against

  • our eardrum... a thin membrane about 10 mm wide.

  • now that we received the sound, the middle ear transfers this energy.

  • The smallest bones in your body, the malleus, incus, and stapes start in motion.

  • the malleus is attached to the eardrum, and as the sound travels along the force is amplified

  • by leverage until it arrives at the stapes which acts like a reverse piston creating

  • waves in the fluid of the inner ear

  • The most significant increase in pressure is caused by pneumatic amplification.

  • the face of the stapes has a surface area of 3.2 square mm, while the eardrum has a

  • surface area of 55 square mm. Using this, along with leverage through the

  • malleus and incus, the final pressure is 22 times greater than when the sound first arrived.

  • Now we come to the most complicated part of hearing... the coke le ah. In reality, it

  • is coiled up, but it is easyer to understand straightned out.

  • There are actually three chambers inside, but lets take a look at the central part.

  • The stapes is cuasing pressure waves to travel through the structure.

  • Along the inside wall is about 20-30k reed like fibers.

  • as the waves move along they encounter fibers with the correct resonant frequency and energy

  • is released. These fibers aren't actually what give us

  • the signal that we heard something. There is a special structure next to these fibers

  • containing hair cells. When the hair fibers resonate, they cause the hair cells to move,

  • which then sends an electrical impulse to the cochlear nerve,

  • and on to the brain. Certain pitches of sound will resonate in specific locations, and louder

  • sounds will cause more hair cells to move.

  • Our brain interprets all this raw data, making it possible to enjoy things like music, or

  • an engaging conversation.

  • Just to think that all of this is happening in your head right now at full speed.

  • And not just one, but two of these sophisticated instruments are giving you the amazing sense

  • of hearing. This is just one of the amazing systems found

  • in the human body that go far beyond our humble human understanding.

Many of us take for granted a very extraordinary organ... our ears

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耳の働き (How the ear works)

  • 51 1
    Liao Jess に公開 2021 年 01 月 14 日
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