1 / 30

Hearing, Touch, Taste and Smell

Hearing, Touch, Taste and Smell. Hearing. Audition – the sense of hearing. Frequency of Sound Waves. frequency - the number of the waves gives us the pitch if the sound. Amplitude of Sound Waves. amplitude - the height of the wave of the sound. Absolute Threshold.

cahil
Download Presentation

Hearing, Touch, Taste and Smell

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Hearing, Touch, Taste and Smell

  2. Hearing Audition – the sense of hearing

  3. Frequency of Sound Waves • frequency - the number of the waves gives us the pitch if the sound.

  4. Amplitude of Sound Waves • amplitude - the height of the wave of the sound.

  5. Absolute Threshold • Absolute Threshold = zero decibels • 10 decibels = 10X increase in sound intensity • Example: • A 30 decibel sound is _____ times louder than a 10 decibel sound • A 40 decibel sound is _____ times louder than a 10 decibel sound

  6. Parts of the Ear

  7. Transduction • Overview– Eardrum, Hammer, Anvil, Stirrup, Oval Window, Cochlea, Auditory Nerve, Temporal Lobe, Auditory Cortex • Outer Ear Ear Drum – tight membrane that vibrates with sound waves. Transmits sound to the bones of the middle ear. 2. Middle Ear hammer, anvil, stirrup to cochlea’s oval window 3. Inner Ear Cochlea – coiled fluid filled tube where transduction occurs • Oval window’s vibrations cause basilar membrane’shair cells to turn vibrations into neural impulses 4. Auditory Nerve – send neural messages via the thalamus to the auditory cortex in the brain. 5. Thalamus to Temporal lobes Auditory cortex It is all about the vibrations!!!

  8. The structure of the ear Bones of the middle ear = the hammer, anvil, stirrup which vibrate with the eardrum.

  9. The structure of the ear Mechanical vibrations triggered by sound waves are transduced into neural impulses by _____________? _____________ do the same job for vision as __________ do for audition

  10. Neural impulse to the brain

  11. Perceiving Loudness • Damage to Basilar membrane’s hair cells = hearing loss (lose sensation of soft sounds) • # of activated hair cells allows us to perceive loudness • Compression – harder to hear sounds are more amplified than loud sound

  12. Pitch Theories Place Theory and Frequency Theory

  13. Place Theory or Herman von Helmholtz Theory • Brain determines pitch by recognizing the place on the membrane that is generating the neural impulse • Best explains how we sense high pitches

  14. Frequency Theory • Brain knows pitch by the frequency of the neural impulse • Frequency (speed) of sound wave matches the speed of the neural impulse. • Theory limitations: Can’t explain high pitch sounds (neural impulses can only travel at 1000 impulses per sec.) • Best explains how we hear low pitches • Example:

  15. Volley Principle • Neural cells alternate firing in rapid succession • Can achieve a combined frequency of above 1000 waves/sec

  16. Locating Sound • Sound waves strike one ear sooner and more intensely in the direction of the sound

  17. Deafness Conduction Deafness Nerve (sensorineural) Deafness The hair cells on the basilar membrain in the cochlea get damaged. Loud noises can cause this type of deafness. NO WAY to replace the hairs. Cochlea implant - converts sound waves to into electrical signals. Example: • Damage to the mechanical system that conducts vibrations in the middle ear (hammer, anvil, stirrup). • You can replace the bones or get a hearing aid to help. • Example:

  18. Touch • Receptors located in our skin. • Types of touch • Pressure* • Warmth • Cold • Pain • Sensation of hot

  19. Kinesthetic Sense • Tells us where our individual body parts are. • Receptors located in our joints, tendons, bones and ears • Example: Without the kinesthetic sense you could not touch the button to make copies of your buttocks.

  20. Vestibular Sense • Enables you to sense your body position and balance • Located in our semicircular canals in our ears. • Example:

  21. Pain • Biological Influences • Noiceptors – sensory receptors that detect hurtful temperatures, pressure or chemicals • Gate-control theory* • Endorphins • Phantom limb sensations • Tinnitus • Psychological influences • Distraction • Memory of Pain – peak pain, end pain • Socio Cultural Influences • More pain when others experience pain • Mirror neurons that empathize with others pain

  22. Gate Control Theory • Gate Control Theory – spinal cord contains a “gate” that blocks pain signals or allows them to pass through to the brain • Example:

  23. Taste • Sweet, sour, salty and bitter • Umami • Taste buds • Chemical sense • Age and taste

  24. Taste • Bumps on our tongue are called papillae. • Taste buds are located on the papillae 200+ each containing a pore. • Pore – 50-100 taste receptor cells that sense food molecules

  25. Sensory Interaction • Sensory interaction – some senses influence others • Examples: Jello in the shape of a brain looks so unappetizing, it tastes terrible too McGurk Effect – seeing mouth movements for ga, but hearing ha, we may perceive da (saying one syllable, while hearing another, you perceive a third)

  26. Smell • Olfaction • Chemical sense • Olfactory receptors - odor molecules fit into receptors like a lock and key located in the olfactory bulb • Olfactory bulb – transmits smell from the nose to the brain • Olfactory nerve – sends neural messages to from the olfactory bulb directly to the olfactory cortex in the brain bypassing the thalamus • Olfactory cortex – receives information from the olfactory bulb • Conscious awareness of odors • Identification of odors • Hotline between olfactory cortex and limbic system (memory and emotion)

  27. Smell (olfaction)

  28. Smell and age

More Related