![CH. 2 (BIOLOGY)](http://s1.studyres.com/store/data/008570922_1-4cfa626ee8488f48b239c0d29c911432-300x300.png)
CH. 2 (BIOLOGY)
... Wernicke’s area might leave a person able to hear words but unable to comprehend the meaning of sentences created with the words. ...
... Wernicke’s area might leave a person able to hear words but unable to comprehend the meaning of sentences created with the words. ...
Lecture_31_2014_noquiz
... nervous system besides brain & spinal cord - includes motor neurons and sensory neurons ...
... nervous system besides brain & spinal cord - includes motor neurons and sensory neurons ...
Your Amazing Brain
... from your eyes, ears, and other sensory organs. Your brain generates enough electricity to power a lightbulb. Your brain contains about 100 billion microscopic cells called neurons—so many it would take you over 3,000 years to count them all. Whenever you dream, laugh, think, see, or move, it’s beca ...
... from your eyes, ears, and other sensory organs. Your brain generates enough electricity to power a lightbulb. Your brain contains about 100 billion microscopic cells called neurons—so many it would take you over 3,000 years to count them all. Whenever you dream, laugh, think, see, or move, it’s beca ...
Higher Mind - Source Naturals
... For the past decade, researchers have been investigating the role in brain health of a remarkable neuroceutical, phosphatidyl serine (PS). This key structural molecule is integral to the matrix of fats and proteins that compose cell membranes. Although PS is found in all the cells of the body, its h ...
... For the past decade, researchers have been investigating the role in brain health of a remarkable neuroceutical, phosphatidyl serine (PS). This key structural molecule is integral to the matrix of fats and proteins that compose cell membranes. Although PS is found in all the cells of the body, its h ...
The Nervous System and Senses
... Contains photoreceptors (rods and cones) Uses reflected light • The eye is covered with a protective layer called the cornea • Muscles around the iris (the colored portion) control the size of the pupil (the black circle), controlling how much light enters the eye • From the pupil, light passes thro ...
... Contains photoreceptors (rods and cones) Uses reflected light • The eye is covered with a protective layer called the cornea • Muscles around the iris (the colored portion) control the size of the pupil (the black circle), controlling how much light enters the eye • From the pupil, light passes thro ...
Your Child`s Brain
... blind. For other systems, researchers know what happens, but not-at the level of neurons and molecules-how. They nevertheless remain confident that cognitive abilities work much like sensory ones, for the brain is parsimonious in how it conducts its affairs: a mechanism that works fine for wiring vi ...
... blind. For other systems, researchers know what happens, but not-at the level of neurons and molecules-how. They nevertheless remain confident that cognitive abilities work much like sensory ones, for the brain is parsimonious in how it conducts its affairs: a mechanism that works fine for wiring vi ...
Sensory Systems
... • The ability to learn requires the ability to habituate. Habituation is the process by which the brain gradually adapts to a new event or sensation and no longer consciously notices it, because the event or sensation has been integrated with other information and ...
... • The ability to learn requires the ability to habituate. Habituation is the process by which the brain gradually adapts to a new event or sensation and no longer consciously notices it, because the event or sensation has been integrated with other information and ...
Nervous System
... Portions of sensory and motor neurons reside in the gray matter as do interneurons. The posterior root of a spinal nerve enters here and the anterior root (containing motor fibers) exits the gray matter. Spinal nerves are created by the joining of these two roots (part of PNS). White matter is made ...
... Portions of sensory and motor neurons reside in the gray matter as do interneurons. The posterior root of a spinal nerve enters here and the anterior root (containing motor fibers) exits the gray matter. Spinal nerves are created by the joining of these two roots (part of PNS). White matter is made ...
Endocrine glands
... • Occipital lobe - section of the brain located at the rear and bottom of each cerebral hemisphere containing the visual centers of the brain. – Primary visual cortex – processes visual information from the eyes. – Visual association cortex – identifies and makes sense of visual information. • Parie ...
... • Occipital lobe - section of the brain located at the rear and bottom of each cerebral hemisphere containing the visual centers of the brain. – Primary visual cortex – processes visual information from the eyes. – Visual association cortex – identifies and makes sense of visual information. • Parie ...
BIOPSYCHOLOGY notes
... foods, causes paralysis by blocking ACH release from a sending neuron. (Botox works the same ...
... foods, causes paralysis by blocking ACH release from a sending neuron. (Botox works the same ...
Sample test
... changes in movement, sensation, or consciousness. a. reflex b. muscle twitch c. seizures d. none of these ____28. In Parkinson’s disease, cells that produce the neurotransmitter _____ (important for planning and controlling body movement) are destroyed. a. acetycholine b. dopamine c. norepinephrine ...
... changes in movement, sensation, or consciousness. a. reflex b. muscle twitch c. seizures d. none of these ____28. In Parkinson’s disease, cells that produce the neurotransmitter _____ (important for planning and controlling body movement) are destroyed. a. acetycholine b. dopamine c. norepinephrine ...
Central nervous system
... • Regulate flow of information between brain and rest of the body • Hearing and visual reflexes • Control over several automatic homeostatic functions: breathing, heart and blood vessel activity, swallowing, vomiting, digestion ...
... • Regulate flow of information between brain and rest of the body • Hearing and visual reflexes • Control over several automatic homeostatic functions: breathing, heart and blood vessel activity, swallowing, vomiting, digestion ...
Central and Peripheral nervous systems
... Contains both afferent and efferent nerve fibres Through this system, the PNS receives and processes information from receptors in the skin, voluntary muscles, tendons, and joints Gives us the sensations of touch, pain, heat, cold, balance, body position, and muscle action ...
... Contains both afferent and efferent nerve fibres Through this system, the PNS receives and processes information from receptors in the skin, voluntary muscles, tendons, and joints Gives us the sensations of touch, pain, heat, cold, balance, body position, and muscle action ...
IMAGING TECHNIQUES AT-A
... Intravital Macroscopic Imaging technologies use light-emitting probes as contrast to visualize specific molecules and the cells they compose in small laboratory animals and in a few larger laboratory animals. The molecules can be imaged everywhere they occur in body as opposed to a single location ...
... Intravital Macroscopic Imaging technologies use light-emitting probes as contrast to visualize specific molecules and the cells they compose in small laboratory animals and in a few larger laboratory animals. The molecules can be imaged everywhere they occur in body as opposed to a single location ...
Biological Psychology Modules 3 & 4
... – Visual cortex • visual info – Auditory cortex • auditory info – Somatosensory cortex • info from skin • Association cortex – involved in complex cognitive tasks associating words with images • Broca’s area (aphasia) • Wernicke’s area (aphasia) ...
... – Visual cortex • visual info – Auditory cortex • auditory info – Somatosensory cortex • info from skin • Association cortex – involved in complex cognitive tasks associating words with images • Broca’s area (aphasia) • Wernicke’s area (aphasia) ...
Cognitive Function
... vitamin A into cells. SERINE – This amino acid is the major component of phosphatidylserine, an integral part of cell membranes in the brain. Phosphatidylserine increases the release of several neurotransmitters, including dopamine, serotonin, acetylcholine and epinephrine, thus improving the rate a ...
... vitamin A into cells. SERINE – This amino acid is the major component of phosphatidylserine, an integral part of cell membranes in the brain. Phosphatidylserine increases the release of several neurotransmitters, including dopamine, serotonin, acetylcholine and epinephrine, thus improving the rate a ...
Lecture 7 Powerpoint file
... Neurons are Electrical • Importantly, we think the electrical signals are fundamental to brain function, so it makes sense that we should try to directly measure these signals – but how? ...
... Neurons are Electrical • Importantly, we think the electrical signals are fundamental to brain function, so it makes sense that we should try to directly measure these signals – but how? ...
Nervous system
... Medulla Oblongata lies within the midbrain between the pons and spinal cord,it forms the brainstem. The medulla controls heart rate, breathing swallowing, coughing and vomiting. The midbrain and the pons relay messages between the medulla oblongata and the cerebrum. ...
... Medulla Oblongata lies within the midbrain between the pons and spinal cord,it forms the brainstem. The medulla controls heart rate, breathing swallowing, coughing and vomiting. The midbrain and the pons relay messages between the medulla oblongata and the cerebrum. ...
AP Psychology Brain Review- Have A Ball! Learning Target: Identify
... Option 1 “Round Robin Brain”: Each student will be given a different brain part to represent (see cards below). Students will stand in a circle so that all class members can see the brain part each person is representing. A ball will start in the center of the circle, the teacher will read the first ...
... Option 1 “Round Robin Brain”: Each student will be given a different brain part to represent (see cards below). Students will stand in a circle so that all class members can see the brain part each person is representing. A ball will start in the center of the circle, the teacher will read the first ...
Neurolinguistics
![](https://commons.wikimedia.org/wiki/Special:FilePath/Gray726-Brodman.png?width=300)
Neurolinguistics is the study of the neural mechanisms in the human brain that control the comprehension, production, and acquisition of language. As an interdisciplinary field, neurolinguistics draws methodology and theory from fields such as neuroscience, linguistics, cognitive science, neurobiology, communication disorders, neuropsychology, and computer science. Researchers are drawn to the field from a variety of backgrounds, bringing along a variety of experimental techniques as well as widely varying theoretical perspectives. Much work in neurolinguistics is informed by models in psycholinguistics and theoretical linguistics, and is focused on investigating how the brain can implement the processes that theoretical and psycholinguistics propose are necessary in producing and comprehending language. Neurolinguists study the physiological mechanisms by which the brain processes information related to language, and evaluate linguistic and psycholinguistic theories, using aphasiology, brain imaging, electrophysiology, and computer modeling.