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Neuroscience and Behavior
... Discuss the association areas. Explain the split-brain studies. Describe the nature of the endocrine system and its interaction with the nervous system. ...
... Discuss the association areas. Explain the split-brain studies. Describe the nature of the endocrine system and its interaction with the nervous system. ...
AP Ch. 2 vocab
... information primarily from the opposite ear the area at the rear of the frontal lobes that controls voluntary movements the area at the front of the parietal lobes that registers and processes body touch and movement sensations areas of the cerebral cortex that are not involved in primary motor or s ...
... information primarily from the opposite ear the area at the rear of the frontal lobes that controls voluntary movements the area at the front of the parietal lobes that registers and processes body touch and movement sensations areas of the cerebral cortex that are not involved in primary motor or s ...
Eagleman Ch 4. Neuroplasticity
... Plasticity is greatest during periods of development known as sensitive periods. After the sensitive period has passed, plasticity is still possible, but not as easy. The success of treatment for strabismus (lazy eye) early in life is an example of these sensitive periods. ...
... Plasticity is greatest during periods of development known as sensitive periods. After the sensitive period has passed, plasticity is still possible, but not as easy. The success of treatment for strabismus (lazy eye) early in life is an example of these sensitive periods. ...
Chapter 02
... the cortex. The medulla secretes hormones (epinephrine and norepinephrine) during stressful and emotional situations, while the adrenal cortex regulates salt and carbohydrate metabolism. ...
... the cortex. The medulla secretes hormones (epinephrine and norepinephrine) during stressful and emotional situations, while the adrenal cortex regulates salt and carbohydrate metabolism. ...
AHISA PASTORAL CARE CONFERENCE, 2006
... developing higher-order thinking skills, improving academic performance, and regulating social and emotional behaviour. • There is a direct link between a student’s ability to self-manage emotions and academic ...
... developing higher-order thinking skills, improving academic performance, and regulating social and emotional behaviour. • There is a direct link between a student’s ability to self-manage emotions and academic ...
The History and Scope of Psychology Module 1
... • With your partner, come up with your own mental images for: – Thalamus – Reticular formation – Occipital lobe ...
... • With your partner, come up with your own mental images for: – Thalamus – Reticular formation – Occipital lobe ...
Biological Bases of Behavior
... In order for a neuron to fire, it needs to reach a minimum threshold ...
... In order for a neuron to fire, it needs to reach a minimum threshold ...
Ch 3 Biological Bases of Behavior
... • Occipital Lobe: (Primary Visual Cortex) Back of brain; visual association area; not a “TV” screen as we will later learn. • Temporal Lobe: (Primary Auditory Cortex) Each side of the brain above the ears; auditory and language centers; recognizes and organizes sounds ...
... • Occipital Lobe: (Primary Visual Cortex) Back of brain; visual association area; not a “TV” screen as we will later learn. • Temporal Lobe: (Primary Auditory Cortex) Each side of the brain above the ears; auditory and language centers; recognizes and organizes sounds ...
The brain - Epilepsy Society
... side of our body, while the right hemisphere controls the left side. Opposite you will see how each hemisphere is divided into four areas or lobes: the frontal, temporal, parietal and occipital lobes each with their own special functions. But while each lobe may have its own specific roles to play ...
... side of our body, while the right hemisphere controls the left side. Opposite you will see how each hemisphere is divided into four areas or lobes: the frontal, temporal, parietal and occipital lobes each with their own special functions. But while each lobe may have its own specific roles to play ...
Biopsychology revision 2
... Topmost layer of the brain; the bulbous cap over the limbic system • Cerebral cortex – Thin gray-matter covering of the cerebrum; carries on thinking and perceiving • Cerebral hemispheres – The two walnut shaped halves of the cerebrum, connected by the corpus callosum ...
... Topmost layer of the brain; the bulbous cap over the limbic system • Cerebral cortex – Thin gray-matter covering of the cerebrum; carries on thinking and perceiving • Cerebral hemispheres – The two walnut shaped halves of the cerebrum, connected by the corpus callosum ...
Synthesis Intro Workshop
... Visual attention has not been linked directly to a specific part of the brain. A study found that, when brain activity was measured by fMRI, the left hemisphere was activated when the subject oriented visual attention to the target. However, when the subject got distracted and had to reorient himsel ...
... Visual attention has not been linked directly to a specific part of the brain. A study found that, when brain activity was measured by fMRI, the left hemisphere was activated when the subject oriented visual attention to the target. However, when the subject got distracted and had to reorient himsel ...
SV3 Neuroscience n Behavior Oct 5 09
... Botulism: A microorganism that produces a toxin that causes botulism. The toxin prevents the release of Ach, which can lead to paralysis and/or death Caffeine: Increases the release of excitatory neurotransmitters by blocking the transmitter (adenosine) that inhibits excitatory neurotransmitters LSD ...
... Botulism: A microorganism that produces a toxin that causes botulism. The toxin prevents the release of Ach, which can lead to paralysis and/or death Caffeine: Increases the release of excitatory neurotransmitters by blocking the transmitter (adenosine) that inhibits excitatory neurotransmitters LSD ...
File
... setting, insight) (Anterior Cingulate Gyrus brain’s gear shifter– sees options go from idea to idea). ...
... setting, insight) (Anterior Cingulate Gyrus brain’s gear shifter– sees options go from idea to idea). ...
This week`s lab will focus on the central nervous
... difficulty moving and sensation awareness in his right arm and leg, what specific region of the brain would be affected? If the next day in the hospital, Samuel was still having difficulty with his vision, what specific region of the brain would be affected? If the next day in the hospital, Samuel’s ...
... difficulty moving and sensation awareness in his right arm and leg, what specific region of the brain would be affected? If the next day in the hospital, Samuel was still having difficulty with his vision, what specific region of the brain would be affected? If the next day in the hospital, Samuel’s ...
Lesson Overview
... Spinal nerves branch out from the spinal cord to connect the brain to different parts of the body. Certain kinds of information, including many reflexes, are processed directly in the spinal cord. A reflex is a quick, automatic response to a stimulus. ...
... Spinal nerves branch out from the spinal cord to connect the brain to different parts of the body. Certain kinds of information, including many reflexes, are processed directly in the spinal cord. A reflex is a quick, automatic response to a stimulus. ...
Chapter 8 - Cloudfront.net
... They are spilt by a longitudinal fissure (a deep groove)… The left side of the hemisphere is connected to the right side of the body… The right side of the hemisphere is connected to the left side of the body… ...
... They are spilt by a longitudinal fissure (a deep groove)… The left side of the hemisphere is connected to the right side of the body… The right side of the hemisphere is connected to the left side of the body… ...
Ch. 13 The Spinal Cord, Spinal Nerves, and Somatic Reflexes
... – Sensory areas – conscious awareness of sensations – Association areas – integrate different info for purposeful ...
... – Sensory areas – conscious awareness of sensations – Association areas – integrate different info for purposeful ...
Chapter 2
... Depolarization: Depolarization occurs when positive ions enter the neuron, making it more prone to firing an action potential. Hyperpolarization occurs when negative ions enter the neuron, making it less prone to firing an action potential. ...
... Depolarization: Depolarization occurs when positive ions enter the neuron, making it more prone to firing an action potential. Hyperpolarization occurs when negative ions enter the neuron, making it less prone to firing an action potential. ...
The Human Brain
... Phineas Gage: Phineas Gage was a railroad worker in the 19th century living in Cavendish, Vermont. One of his jobs was to set off explosive charges in large rock in order to break them into smaller pieces. On one of these instances, the detonation occurred prior to his expectations, resulting in a 4 ...
... Phineas Gage: Phineas Gage was a railroad worker in the 19th century living in Cavendish, Vermont. One of his jobs was to set off explosive charges in large rock in order to break them into smaller pieces. On one of these instances, the detonation occurred prior to his expectations, resulting in a 4 ...
Brain Plasticity-
... strung between cities, the newborn’s genes instruct the "pathway" to the correct area of the brain from a particular nerve cell. For example, nerve cells in the retina of the eye send impulses to the primary visual area in the occipital lobe of the brain and not to the area of language production (W ...
... strung between cities, the newborn’s genes instruct the "pathway" to the correct area of the brain from a particular nerve cell. For example, nerve cells in the retina of the eye send impulses to the primary visual area in the occipital lobe of the brain and not to the area of language production (W ...
Lateralization of brain function
![](https://commons.wikimedia.org/wiki/Special:FilePath/Cerebral_lobes.png?width=300)
The longitudinal fissure separates the human brain into two distinct cerebral hemispheres, connected by the corpus callosum. The hemispheres exhibit strong, but not complete, bilateral symmetry in both structure and function. For example, structurally, the lateral sulcus generally is longer in the left hemisphere than in the right hemisphere, and functionally, Broca's area and Wernicke's area are located in the left cerebral hemisphere for about 95% of right-handers, but about 70% of left-handers.Broad generalizations are often made in ""pop"" psychology about one side or the other having characteristic labels, such as ""logical"" for the left side or ""creative"" for the right. These labels are not supported by studies on lateralization, as lateralization does not add specialized usage from either hemisphere. Both hemispheres contribute to both kinds of processes, and experimental evidence provides little support for correlating the structural differences between the sides with such broadly defined functional differences.The extent of any modularity, or specialization of brain function by area, remains under investigation. If a specific region of the brain, or even an entire hemisphere, is injured or destroyed, its functions can sometimes be assumed by a neighboring region in the same hemisphere or the corresponding region in the other hemisphere, depending upon the area damaged and the patient's age. When injury interferes with pathways from one area to another, alternative (indirect) connections may develop to communicate information with detached areas, despite the inefficiencies.Brain function lateralization is evident in the phenomena of right- or left-handedness and of right or left ear preference, but a person's preferred hand is not a clear indication of the location of brain function. Although 95% of right-handed people have left-hemisphere dominance for language, 18.8% of left-handed people have right-hemisphere dominance for language function. Additionally, 19.8% of the left-handed have bilateral language functions. Even within various language functions (e.g., semantics, syntax, prosody), degree (and even hemisphere) of dominance may differ.Additionally, although some functions are lateralized, these are only a tendency. The trend across many individuals may also vary significantly as to how any specific function is implemented. The areas of exploration of this causal or effectual difference of a particular brain function include its gross anatomy, dendritic structure, and neurotransmitter distribution. The structural and chemical variance of a particular brain function, between the two hemispheres of one brain or between the same hemisphere of two different brains, is still being studied. Short of having undergone a hemispherectomy (removal of a cerebral hemisphere), no one is a ""left-brain only"" or ""right-brain only"" person.