Nervous System

... • Motor – carry information from the brain to the body • Sensory – carry the information from the body to the brain • Association – found only in the brain; transfers information from the sensory to the motor ...

Nervous Regulation

...  These 2 systems are antagonistic.  The autonomic nervous system is made entirely of ________________.  Impulses in this system start in motor neurons in the ______________ __________. The axons of these nerves ________________________ _________________________________________________________.  ...

Text - Department of Physiology, UCLA

... Work in our lab spans many levels of analysis, from the molecular to the behavioral. We are studying how voltage controls the activity of K+ channels, how changes in channel function or expression affect the firing patterns of neurons and the emergent properties of neuronal circuits, and how alterin ...

Hafiz Noordin Term Paper - Engineering Computing Facility

... cortical region in the occipital lobe of the brain, since almost all signals from the optic nerve will pass through this region. Although there are many other cortical regions (i.e. V2-V6) utilized in visual processing, usually only V1 is considered when modeling due to the complexity of interconnec ...

Comb Jellies

... interstitial cells which are able to transform into other types of cells. -The largest and most complex sensor of the comb jelly is the apical sence organ, which is a balance sensor. -Comb Jellies have eight large rows of cilia that are shaped like combs run from the mouth to the aboral pore on the ...

Cell types: Muscle cell Adipocyte Liver cell Pancreatic cell Example

... Ischemic stroke, for instance, is caused by a lack of oxygen and glucose in the brain, which leads to the excessive accumulation of glutamate in the extracellular space. Glutamate then activates Nmethyl-d-aspartate (NMDA) receptors, which trigger calcium influx and a series of detrimental events, in ...

NVCC Bio 211 - gserianne.com

... • Ascending tracts conduct sensory impulses to the brain • Descending tracts conduct motor impulses from the brain to motor neurons reaching muscles and glands Tract: Contains axons that share a common origin and destination Tracts are usually named for their place of origin (1st) and ...

Limbic System Limbic `Lobe` Components Limbic System Components

... with varying periods of retrograde Modality-specific – e.g. vision Permanent – e.g. Alzheimer’s Transient – e.g. post-traumatic ...

B) Central Nervous System NTG spring 2010

... 1. Primary (_________________________) sensory cortex 2. Visual cortex 3. Auditory cortex 4. Olfactory cortex 5. Gustatory (_______________________) cortex Primary (somatic) sensory cortex – Located in the _____________________gyrus of each parietal lobe posterior to the primary motor cortex – Recei ...

Nervous system

... Myelin is made of fat, and it helps to speed transmission of a nerve impulse down a long axon. ...

NOTE

... These facts will teach you interesting bits of information about the physical make-up of the human brain. Weight. The weight of the human brain is about 3 lbs. Cerebrum. The cerebrum is the largest part of the brain and makes up 85% of the brain’s weight. Skin. Your skin weighs twice as much as your ...

File - Wk 1-2

... trabeculae are the subarachnoid space (communicates with ventricles of the brain) which is filled with CSF and completely separated from subdural space. It functions to protect CNS from trauma. Composed of CT devoid of BV’s. - Pia mater: loose CT containing BV’s. Close to nerve tissue but not indire ...

Drosophila melanogaster

... In animals, the feeding behavior is genetically programmed, yet modulated according to their nutritional and physiological states. Fruit fly Drosophila melanogaster makes mating statusspecific food preference decisions. Given with a choice between yeast and sucrose, male and virgin female prefer suc ...

David H. Hubel - Nobel Lecture

... light could reach the retina through the closed eyelids. Whether the cat was asleep or awake with eyes open, diffuse light failed to stimulate the cells in the striate cortex. In waking animals I had succeeded in activating many cells with moving spots on a screen, and had found that some cells were ...

research Nerve Cells, Axons, Dendrites, and Synapses: The

... their number of axons and dendrites in response to the increased activity of therapy. These developments create a richer environment for neural activity. They provide for associations to be formed between the neurons, and thereby establish the possibility of coordinated, sequenced, and associated ac ...

Neural computations that underlie decisions about sensory stimuli

... light, with some values being more likely than others when light is present (see Box 1). How do you use the value from the detector to decide if the light was present? This problem consists of deciding which hypothesis – light is present (h1) or light is absent (h2) – is most likely to be true given ...

Chapter 2 Vocabulary

... 30. The __________________ , the oldest and innermost region of the brain, is an extension of the spinal cord and is the central core of the brain; its structures direct automatic survival functions. (p. 61) 31. Located in the brainstem, the __________________ controls breathing and heartbeat. (p. 6 ...

internal stimuli

... your body, like glucose levels in your blood. ...

Chapter 12 Functional Organization of the Nervous System

... (2) called involuntary nervous system with two neurons between the CNS and effector organs. The first neuron has its cell body in CNS, and the second neuron has its cell body within autonomic ganglia and extends to effector organ. Two (functional) divisions of ANS: Sympathetic -T1-L2 - ganglian are ...

File

... • Can only respond to change if you detect it • Receptors=detectors • Sound • Texture • Smell • Temperature • Light ...

Drug Slides Ch. 3

...  Endorphins  Anandamide ...

Introduction to Psychology - Ms. Kelly's AP Psychology Website

... DopamineInvolved in the control of bodily movements, ...

Nervous System Lecture- Part II

... Non-excitable – do not transmit electrical signals ...

COLOUR VISION Newton`s Prism Experiments: a white light beam

... auditory information must be from the same source – which should be in the same location ...

Lecture in Linköping 23/9 Music, the Brain and Multimodal

... Are these principles important for how music can be used in multimodal communication? Let us discuss this for film music. 1. The principle of unification: Because of unification we know what to look for when we hear a sound. Sounds direct the gaze. The eye is looking for the sound source. And in doi ...

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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)