5 Steps to a 5 AP Psychology, 2014-2015 Edition

(Marvins-Underground-K-12) #1
Timbre—the quality of a sound determined by the purity of a waveform. What makes
a note of the same pitch and loudness sound different on different musical instruments.

Sound localization—the process by which you determine the location of a sound.

Parts of the ear


  • The outer ear includes the pinna, the auditory canal, and the eardrum.

  • The middle ear includes three tiny bones: the hammer, anvil, and stirrup.

  • The inner ear includes the cochlea, semicircular canals, and vestibular sacs.


Cochlea—snail-shaped fluid-filled tube in the inner ear with hair cells on the basilar
membrane that transduce mechanical energy of vibrating molecules to the electrochem-
ical energy of neural impulses. Hair cell movement triggers impulses in adjacent
nerve fibers.

Auditory nerve—axons of neurons in the cochlea converge transmitting sound messages
through the medulla, pons, and thalamus to the auditory cortex of the temporal lobes.

Conduction deafness—loss of hearing that results when the eardrum is punctured or
any of the ossicles lose their ability to vibrate. A hearing aid may restore hearing.

Nerve (sensorineural) deafness—loss of hearing that results from damage to the
cochlea, hair cells, or auditory neurons. Cochlear implants may restore some hearing.

Place theory—the position on the basilar membrane at which waves reach their peak
depends on the frequency of a tone. Accounts well for high-pitched sounds.

Frequency theory—the rate of the neural impulses traveling up the auditory nerve
matches the frequency of a tone, enabling you to sense its pitch. Frequency theory
explains well how you hear low-pitched sounds.

Other Senses
Somatosensation—the skin sensations: touch/pressure, warmth, cold, and pain.

Gate-control theory—pain is experienced only if the pain messages can pass through a
gate in the spinal cord on their route to the brain. The gate is opened by small nerve
fibers that carry pain signals and closed by neural activity of larger nerve fibers, which
conduct most other sensory signals, or by information coming from the brain.

Kinesthesis—body sense that provides information about the position and movement
of individual parts of your body with receptors in muscles, tendons, and joints.

Vestibular sense—body sense of equilibrium with hairlike receptors in semicircular
canals and vestibular sac in the inner ear.

Gustation—the chemical sense of taste with receptor cells in taste buds in fungiform
papillae on the tongue, on the roof of the mouth, and in the throat. Molecules must dis-
solve to be sensed. The five basic taste sensations are sweet, sour, salty, bitter, and, newly
added to the list, umami or glutamate. Flavor is the interaction of sensations of taste and
odor with contributions by temperature, etc.

Olfaction—the chemical sense of smell with receptors in a mucous membrane (olfac-
tory epithelium) on the roof of the nasal cavity. Molecules must reach the membrane and
dissolve to be sensed. Olfactory receptors synapse immediately with neurons of the
olfactory bulbs in the brain with no pathways to the thalamus.

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