The Ear D. Crowley, 2008. The Ear To be able to label the ear, and to know the function of each part.

Slides:

Advertisements

Similar presentations

Chapter 16.4 How You Hear Sound

Advertisements

Hearing Our auditory sense. Frequency the number of complete wavelengths that pass through point at a given time. This determines the pitch of.

The Ear Ear canal Ear drumCochlea Auditory nerve Semi- circular canals - The Ear Pinna Stirrup AnvilHammer Eustachian tube.

The Ear Review.

 Your ears are sense organs that respond to the stimulus of sound.  The sound waves are picked up from the surrounding air, and they are turned into.

Hearing – How We Hear Sound

Hearing: How do we hear?.

Mrs. Jameson ASL ANATOMY OF THE EAR Mrs. Jameson.

Chapter 21 What is Sound? Section 1.

From Vibration to Sound

HEALTHY CHOICES: Your Sense of Hearing Ms. Mai Lawndale High School.

What are some practical ways we use sound energy? The Human Ear.

Hearing: How do we hear?. Hearing: The Nature of Sound Module 9: Sensation.

Sound travels in the air at about 340 metres per second as waves of vibrating air particles These vibrations travel into your ear canal and cause your.

Hearing: How do we hear?. Hearing: The Nature of Sound Module 9: Sensation.

Hearing Our auditory sense We hear sound WAVES Frequency: the number of complete wavelengths that pass through point at a given time. This determines.

Sound Waves, Hearing, and the Human Ear. the frequency of a wave is the number of waves per unit of time usually measured in Hz (1 wave per second) humans.

The Human Ear. Composed of outer, middle and inner ear.

Life Science Chris Petriccione

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

Label the Ear Anatomy Learning the Parts of the Ear.

Perception: Hearing Sound: Amplitude – loudness (decibels)

Hearing: How do we hear?. Hearing: The Nature of Sound Module 9: Sensation.

Wed. Mar. 12 Do Now: What kind of wave is a sound wave?

Hearing: How do we hear?. Our Essential Questions What are the major parts of the ear? How does the ear translate sound into neural impulses?

The Ear Biology 12. What is sound? A form of energy which travels in the form of a wave. A form of energy which travels in the form of a wave. The outer.

Hearing The Nature of Sound. Sound Sound, like light, comes in waves Sound is vibration Features of sound include: – Pitch – Hertz – decibels.

SOUND Entry # 10. Sound: –the vibration of particles that travel in a longitudinal wave. –a mechanical wave which travels through a medium When that disturbance.

Hearing. Anatomy of the Ear How the Ear Works The outer ear The pinna, which is the external part of the ear, collects sounds and funnels them through.

Chapter 4 Sensation and Perception. The Ear Audition = hearing Audition = hearing Sounds = mechanical energy typically caused by vibrating objects Sounds.

Thursday Turn in 2.3 Notes 2.4 Notes Egg vs Pop. Your Sense of Hearing.

Hearing, Hearing Loss and the Human Ear Hearing Test Hearing Frequencies Hearing Loss and Earbuds Teen Hearing Stats Hearing Loss Prevention The Human.

Chapter 21 The Nature of Sound Section 1 – What Is Sound? pp

Auditory System…What??? It plays an important role in language development and social interactions… Plus…it alerts us to dangerous situations! The auditory.

Sound How You Hear Sound. What is Sound? Sound is Longitudinal waves that travel through a medium & can be heard when they reach a person’s or animal’s.

How the Ear Works 6 th Grade Science. Parts of the Ear The ear is divided into 3 main parts: Outer Ear Middle Ear Inner Ear.

Definition: the organ humans use to detect sound.

Hearing – How We Hear Sound

Hearing: How do we hear?.

Audition (Hearing).

Notes 21.3: The Ear.

Section 14.3 Hearing and Equilibrium

THE AUDITORY SYSTEM: HEARING

How you Hear Sound Ch.2, Sect. 4 Notes

Mrs. Jameson ASL A Story About the Ear Mrs. Jameson.

Definition: the organ humans use to detect sound.

How the Ear Works.

II. Receiving and Interpreting Sound

Mrs. Jameson ASL A Story About the Ear Mrs. Jameson.

Waves and Wave Properties

Sound 4th Grade Science.

Hearing – How We Hear Sound

Hear Hear Objectives Identify the parts of the ear

Hearing: How do we hear?.

Waves and Wave Properties

Lesson 2a-Sound Hearing: The Ear

Definition: the organ humans use to detect sound.

Definition: the organ humans use to detect sound.

The Ear Part 1: Structure and Function.

The Ear & Sense of Hearing Notes

Definition: the organ humans use to detect sound.

The Ear D. Crowley, 2008.

L6 – Hearing and the Ear Learning Objectives:

Hearing – How We Hear Sound

Presentation transcript:

The Ear D. Crowley, 2008

The Ear To be able to label the ear, and to know the function of each part

Hearing How do we hear? Ears change sound energy into electrical signals, which are sent to your brain Vibrating sound waves travel through the air, into the ear, making the eardrum vibrate These vibrations then reach the cochlea, where they are changed to electrical impulses which travel to the brain The eardrum vibrates the inner ear bones (anvil, hammer, and stirrup)

Hearing

1.Sound waves are collected by the ear lobe (pinna) 2.The waves travel along the ear canal 3.The waves make the ear drum vibrate 4.The small bones of the inner ear amplify the vibrations 5.The cochlea turns these into electrical signals 6.The auditory nerve takes the signals to the brain Using the worksheet label, and make the key notes, for how the ear works

Hearing Complete the hearing worksheet, adding the key words which are missing, explaining how we hear

Hearing

How We Hear Something vibrates to produce a sound. Sound travels through the air to the ear. When the vibrations reach the eardrum they are transferred to the small bones, called the hammer, anvil and stirrup. The bones pass the vibrations to the cochlea. This contains tiny hairs which change the vibrations to electrical signals, called impulses. The auditory nerve takes the signals to the brain. We hear the sound when the message reaches the brain.

How Much We hear a range of sounds from low pitch to high pitch – this is the audible range The audible range is roughly between 20 Hz and 20,000 Hz (but different people have different audible ranges) Many animals have a much wider range of hearing, such as dogs, dolphins and bats…

Damaging The ear is very delicate (thin membranes and tiny bones which can be damaged easily) Think of as many ways as you can which can cause damage to our ears Your task is to produce a leaflet either listing the ways we can damage our hearing, or ways in which we can protect our hearing It needs to be aimed at pupils you age – so think what is likely to affect your hearing!

Damaging Consider Ear getting blocked by wax (stops ear drum vibrating) Loud bangs / accidents / infections can damage the ear drum (although it may repair itself) Middle ear can get infected (antibiotics may help) As people age the tiny bones in the inner ear can fuse together, preventing amplification of the vibrations so hearing worsens Nerve cells in the cochlea sometimes fail, so the messages are not sent to the brain Cochlea can be affected by loud noise (constant loud noises can causes hearing loss, and there is no treatment for this)

Tinnitus Inner ear cells (these vibrate, changing sound vibrations to electrical impulses Tinnitus - noises 'in the ears' and/or 'in the head' with no external source

Levels Constant loud noises can be extremely damaging to your hearing Persistent levels above 90dB can result in hearing damage Levels can be measured in decibels – more than 130dB will causes pain Above 140dB even short exposure can results in hearing loss