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I can Hear you!!! The workings of the ear… A human version of a Rube golberg machine.

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Presentation on theme: "I can Hear you!!! The workings of the ear… A human version of a Rube golberg machine."— Presentation transcript:

1 I can Hear you!!! The workings of the ear… A human version of a Rube golberg machine

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3 Anatomy of the ear The ear is the organ that interprets sounds It is divided into three different regions –The outer ear What you can see and easily get at –The middle ear Smallest part of the ear –The inner ear Where the vibrations are transformed into nervous impulses

4 The Outer Ear Overall function: –Captures the sounds and concentrates them to the membrane Parts: –Auricle or Pinna –Auditory Canal

5 The outer ear Sub-functions –Auricle: captures sounds –Auditory canal: protects the membrane from small insects, bacteria and dust that could reduce hearing. This is also where the ceriminous glands excrete cerumen (ear wax)

6 The middle ear Overall function: –Transforms wave energy into mechanical energy –Amplifies (or attenuates) the sound –Equilibrates pressure on either side of the eardrum Parts: –Eardrum –Ossicles (middle ear bones) –Eutaschian tube

7 The middle ear Sub functions: –Eardrum: Sensitive membrane that transfers the sound wave into vibrations. The eardrum transfers these vibrations to the ossicles –Ossicles (3) Malleus (hammer) Incus (Anvil Stappes (stirrup)

8 The middle ear Sub functions (continued) –Eustachian Tube 4cm long tube that connects to the pharynx Equilibrates the air pressure on either side of the eardrum

9 On either sound of the eardrum there is air pressure. These 2 pressure must be balanced if they are not balanced the eardrum cannot vibrate and your ear is blocked. To get the ear balanced you must get the pressure on either side to be balanced. Chew, swallow will balance air pressure. Diving, altitude, wind will unbalance them

10 The inner ear Overall function: –Transform the mechanical energy into a chemical energy (nervous impulse) Parts: –Vestibule –Semicircular canals –Choclea

11 The inner ear Sub functions: –Vestibule Contains nerve cells that detect the bodies movement and that are sensitive to the gravitational attraction These cells send impulses to the cerebellum that allows you stay balanced

12 Sub functions –Semicircular canals 3 rings filled with liquid They are oriented according to the three axes in space As a person moves through space, the liquid in these tubes moves differently. This information is passed on to the cerebellum. *** There is a specific part in the brain that combines the information received from the eye and from the inner ear : hand eye coordination

13 Sub functions (cont.) –Cochlea Round tube filled with liquid Where we find nerve cells able to transform mechanical energy into nervous impulses Small hairs inside the cochlea react to their own frequency of the movement of the liquid The lower frequencies stimulate the hairs at the end of the cochlea. High frequencies stimulate hairs at the start of the cochlea. The louder a noise, the more nerve cells will be stimulated

14 How do we hear? Sound waves will cause the eardrum to vibrate. The eardrum vibrating pass the sound waves to the ossicles. This motion continues to the cochlea, where tiny hairs will be stimulated based on the frequency and strength of an auditory signal. These hairs stimulate nervous cells that transfer the information to the brain.

15 From the speaker to your brain The path of sound: –Sound which causes the air to vibrate –These vibrations are caught by the auricle and are concentrated in the auditory canal –The vibrations cause the ear drum to vibrate, which then starts a chain reaction in the ossicles. –The vibrations make it all the way to the vestibule, where they travel through liquid –The hairs of the cochlea pick up on these vibrations and signal the nervous cells that then transfer to the brain the information via nervous impulse

16 The path of sound Auricle Auditory canal Eardrum Ossicles Cochlea Auditory nerve Brain

17 Waves Sound: –Mechanical longitudinal wave Sound requires a material medium to propagate itself (in space no one can hear you scream) The speed at which sound travels depends on the material medium –In air 340 m/s (compared with light 300 000 km/s

18 Sound In order to be perceived by the human ear: –1.the vibrations have to be fast enough »Frequency between 16 – 20 000 Hz –2.the amplitude has to be above the hearing limit (0dB) ** dogs can hear sound going to 80 000 Hz, bats to 120 000 Hz

19 Decibels Definition: –Measures the intensity of a sound –Humans can hear a sound with an intensity between 0dB to 150 dB. But after a prolonged 80 dB you can permanently damage your hearing.

20 Decibels Whisper30 dB Conversation at 5 feet60 dB Telephone dial tone80 dB Truck traffic90 dB8 hour max Motorcycle100 dB2 hour max Power saw at 3 feet110 dB30 min max Loud rock concert115 dB15 min max Pain begins125 dB Jet engine at 100 feet140 dB

21 Taking care of your ears Do not use Q-tips Do not stick objects in your ear Do not listen to loud music (including earphones) –Music at max – 100 decibels –Desensitizes the cochlea –Eardrum can overvibrate –Ossicles can desensitize


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