Auditory (Cochlear) System

... trapezoid body (both these centers contain 3rd order neurons).  Unilateral lesions in the auditory nerve or cochlear nuclei ...

Peripheral Nervous System

... region of the perikaryon; the Axon hillock, which is devoid of nissl bodies and Golgi cisternae, and it is the site where all other organelles pass to the axon. The plasma membrane of the axon is called Axolemma and the contents are known as the axoplasm, which contains mitochondria, microtubules, s ...

Ch 3 Vision - Texas A&M University

... • When you enter a dark room from outside, you can’t see well at first. But gradually, your eyes are adjusted to the dark, and see better. ...

The human brain is a 3 pound mass of fatty tissue that controls all

... Upon reaching the end of an axon, an action potential triggers the release of neurotransmitters. These chemicals are the first messengers between neurons. Neurotransmitters are released at nerve ending terminals, diffuse across the intrasynaptic space, and bind to receptors on the surface of the tar ...

Ch 2 Biology and Behavior

... • 2 hemispheres cooperate naturally and neither is dominant over the other. • They both have their talents and they are used when needed. ...

Lecture nerve

... conducts nerve impulses away from cell body to another neuron joins the cell body at a cone-shaped elevation = axon hillock nerve impulse arises at a region of the axon hillock = trigger zone cytoplasm = axoplasm plasma membrane = axolemma side branches = collaterals arise from the axon axon and col ...

Chapter 4 Notes

... • Increased retinal sensitivity to light after entering the dark; similar to going from daylight into a dark movie theater • Rhodopsin: Light-sensitive pigment in the rods Skip Hearing (p. 149-152) SKIP SMELL & TASTE and THE SOMESTHETIC SENSES—P. 152-158 ...

Nervous System - Science

... 1. Stimuli comes into the brain through the five senses. The nerves that bring stimuli into the body are SENSORY neurons. 2. The impulse travels through INTERNEURONS. 3. When the impulse reaches the MOTOR neuron, the response occurs. ...

Reflex Arc.

... 6. Name three parts of the Brain? 7. How much space does the Cerebrum take in our brain? 8. What does PNS stand for and what are the two ...

Neuron Structure and Function

... One of the body’s homeostatic control systems Contains sensors, integrating centers, and output pathways More interneurons in a pathways  greater ability to integrate information ...

brain09.3

... brain actually does, and even if there were, there haven’t been enough methods for analyzing such data and using them to answer the question of how neural coding actually takes place. The analytical method developed by the Hebrew University researchers should be able to provide an indication, for ex ...

Document

... A mirror neuron is a neuron that fires both when an animal acts and when the animal observes the same action performed by another.[1][2][3] Thus, the neuron "mirrors" the behavior of the other, as though the observer were itself acting. Such neurons have been directly observed in primatespecies.[4] ...

The Auditory System

... As I mentioned earlier, cochlear afferents are also phase locked to sound (especially low frequency sounds). So there are two ways to code for sound. A firing rate “place” code (tonotopy) and a temporal code. The central auditory system uses both codes for various purposes. This is a general princip ...

Neural Plasticity in Auditory Cortex

... neurobiology of learning and memory. Furthermore, this topic provides a clear example of how assumptions constrained thought and experiment for most of the twentieth century. Finally, because the majority of studies on learning and sensory systems have been carried out in the auditory cortex, the de ...

THE OPEN OCEAN

... starts and will continue to fire, if not, then the nervous signal is stopped (is inhibited) ...

Psychology Lecture 02 - Biological Basis

... ◦ The waves cause the round window to bulge into the middle ear & the walls fo the scala vestibuli & scala tympani to change. ◦ Wall changes cause pressure waves in the endolymph inside the cochlear duct. ◦ Waves in the cochlear duct cause vibration of the basilar ...

The Nervous System

... • This situation is known as the relative refractory period. Imagine, if you will, a toilet. When you pull the handle, water floods the bowl. This event takes a couple of seconds and you cannot stop it in the middle. Once the bowl empties, the flush is complete. Now the upper tank is empty. If you t ...

nervous system B

... • The experiences are unique to each individual (i.e. there is no universal association between a certain letter or a certain color), are not made up or learned, and usually remain the same throughout life. ...

The Cerebral Association Cortex

... Grandmother cell theory: Simple cells connect to complex cells, complex cells connect to hyper-complex cells, and so on, until finally there is one unique cell that fires when you see your grandmother. If you loose that cell, you can no longer recognize your grandmother but have no problems with gra ...

The Nervous System

... • Sensory (afferent) Neurons ...

Chapter 48 Reading Guide and Key Terms

... longer time following an action potential. How would such a mutation affect the maximum frequency at which action potentials could be generated? ...

9 Chapter Nervous System Notes (p

... 46. What is the dura mater? 47. What is the epidural space? 48. What is the arachnoid mater? 49. What is the subarachnoid space? 50. What is the pia mater? 51. What is CSF and where is it located? ...

Processing of complex stimuli and natural scenes in the visual cortex

... This leads to the question of how relevant such efficient coding on the single neuron level is and whether single neurons provide a good estimate about a natural stimulus. A recent study [26] compared the responses of single V1 neurons to a population code built on the responses of many recorded n ...

05 - Nervous Tissue

... but not in the axon hillock or axon. When there’s neuronal damage, these bodies move towards the periphery of the soma giving the impression that they have disappeared – this is called Chromatolysis. ...

Neurons

... • Most CNS neurons are not “follower cells” – instead, they integrate their synaptic inputs, or add them up over time and space. This is because PSPs summate within the postsynaptic cell’s input segment. The summation is algebraic, because some synaptic inputs are inhibitory. ...

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Feature detection (nervous system)

Feature detection is a process by which the nervous system sorts or filters complex natural stimuli in order to extract behaviorally relevant cues that have a high probability of being associated with important objects or organisms in their environment, as opposed to irrelevant background or noise. Feature detectors are individual neurons – or groups of neurons – in the brain which code for perceptually significant stimuli. Early in the sensory pathway feature detectors tend to have simple properties; later they become more and more complex as the features to which they respond become more and more specific. For example, simple cells in the visual cortex of the domestic cat (Felis catus), respond to edges – a feature which is more likely to occur in objects and organisms in the environment. By contrast, the background of a natural visual environment tends to be noisy – emphasizing high spatial frequencies but lacking in extended edges. Responding selectively to an extended edge – either a bright line on a dark background, or the reverse – highlights objects that are near or very large. Edge detectors are useful to a cat, because edges do not occur often in the background “noise” of the visual environment, which is of little consequence to the animal.

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Feature detection (nervous system)