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Test your basic knowledge |
GRE Psychology: Physiological/behavioral Neuroscience 1
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Subjects
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gre
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psychology
Instructions:
Answer 50 questions in 15 minutes.
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study here
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Match each statement with the correct term.
Don't refresh. All questions and answers are randomly picked and ordered every time you load a test.
This is a study tool. The 3 wrong answers for each question are randomly chosen from answers to other questions. So, you might find at times the answers obvious, but you will see it re-enforces your understanding as you take the test each time.
1. Control large voluntary muscle movements - Their degeneration is related to motor dysfunction in Parkinson'S and Huntington'S
Basal ganglia
Oligodendrocytes
Acetylcholine
Reticular formation
2. Neuron branches - receive impulses - branching patterns change throughout life
Dendrites
Absolute refractory period
All-or-none law
Agonists
3. Released from the pituitary and facilitates birth and breast feeding - also involved in pair bonding (mother to child or romantic partners) -
Cerebral cortex (subsystem)
Autonomic nervous system
White Matter
oxytocin
4. Include dopamine - lack of dopamine linked with Parkinson'S - excess dopamine is linked with schizophrenia - dopamine is also involved in feelings of reward and therefore addiction
Afferent fibers
Autonomic nervous system (subsystems)
Catecholamines
Alpha waves
5. Made up of somatic nervous system and autonomic nervous system
Peripheral nervous system (subsystems)
Absolute refractory period
Pituitary gland
Neurotransmitters
6. Consists of limbic system - hippocampus - amygdala - cingulate gyrus
Beta waves
Cell membrane
Hippocampus
Telencephalon
7. Incredible rage easily provoked when cerebral cortex is removed
Sham rage
Neurotransmitters
Limbic system
Schwann cells
8. Of pituitary - regulate water levels in body and therefore BP
White matter
Gyri
Sleep cycles
Vasopressin
9. Include serotonin - lack of serotonin is linked with depression
Myelencephalon
androgens (example)
Indolamines
Axon
10. Comprise two classes of neurotransmitters - indolamines and catecholamines
Monoamines
Postsynaptic cell
Indolamines
Pituitary gland
11. Depolarization - + from outside allowed into cell - increase firing
Limbic system
oxytocin
Excitatory postsynaptic potential
Relative refractory period
12. PNS fibers that run towards CNS
Superior colliculus
Sympathetic nervous system
Agraphia
Afferent fibers
13. Gray matter - white matter
Inferior colliculus
Endorphins
Spine (subsystem)
Basal ganglia
14. Provide myelin in central nervous system
Blooming and pruning
Steps in neural transmission
Oligodendrocytes
Myelencephalon
15. Dysfunction in certain cortical association area - inability to read
Alexia
Autonomic nervous system
Somatic nervous system
Synaptic vessels
16. Fast frequency bursts of brain activity - inhibits processing to keep tranquil state
postsynaptic potentials
Sleep spindles
Glutamate
Amygdala
17. Chemicals that stimulate nearby cells
Neurotransmitters
Autonomic nervous system
Absolute refractory period
Sleep cycles
18. Overeating with no satiation of hunger; leads to obesity; damage to ventromedial region of hypothalamus
Stereotaxic instruments
Excitatory postsynaptic potential
Hyperphagia
estrogen
19. Of telencephalon - links brain areas dealing with emotion and decisions
Cingulate gyrus
White matter
Metencephalon
Brain evolution
20. Divided into diencephalon and telencephalon
reuptake
Absolute refractory period
Forebrain (division)
Afferent fibers
21. Of hindbrain - has pons(connects brain parts to spine) and cerebellum(controls muscle coordination - balance - posture)
Metencephalon
Rebound effect
fMRI
Mesencephalon
22. Of cerebral cortex - controls speech (Broca'S area) - reasoning - problem solving
Postsynaptic cell
Female menstrual cycle (hormones)
Absolute refractory period
Frontal lobe
23. Of pituitary - activates thyroid
Thyroid stimulating hormone
Frontal lobe
Soma
Inferior colliculus
24. Contain synaptic vessels that hold neurotransmitters
White matter
oxytocin
Terminal buttons
Peripheral nervous system (subsystems)
25. The process after a neurotransmitter has done its job - it is reabsorbed by the presynaptic cell
Meninges
reuptake
Autonomic nervous system
Nodes of Ranvier
26. Anytime during adulthood - short periods - often transient or reversible (current/recent circulation); - menstrual cycle (estradiol - progesterone - luteinizing hormone (LH) - follicle stimulating hormone (FSH)); - LH and FSH in females regulate ovum
Rapid Eye Movement sleep
Organizational hormones
Activational hormones
Wernicke'S aphasia
27. Made up of sympathetic nervous system and parasympathetic nervous system
Sleep cycles
Autonomic nervous system (subsystems)
Neurotransmitters
Neuron
28. Connections between brain and spine
Meninges
Adrenocorticotropic hormone (ACTH)
Corticospinal tract
Basal ganglia
29. Time after absolute refractory period - neuron can fire but needs a much stronger stimulus
Relative refractory period
Synapse gap
menarche
Hypothalamus
30. ANS - recuperation after arousal (decrease HR - BP - respiration)
Organizational hormones
Cerebral cortex (subsystem)
Parasympathetic nervous system
Amino acids
31. An amino acid - most abundant inhibitory neurotransmitter
Broca'S aphasia
Gamma-aminobutyric acid (GABA)
Gyri
Sleep spindles
32. Midbrain; contains tectum and tegmentum
Neuron
Agraphia
Delta waves
Mesencephalon
33. Controlled by hypothalamus - regulation of hormones in the body - The 'master gland' of the endocrine/hormone system
Limbic system
Pituitary gland
Rebound effect
Synapse gap
34. Released at neuromuscular junction to cause contraction of skeletal muscles - also involved in parasympathetic nervous system
Acetylcholine
Agraphia
Autonomic nervous system
postsynaptic potentials
35. Of telencephalon - involves in memory- transfer STM into LTM - - new neurons can form in adult mammalian brain
Hippocampus
Cortical association areas
Wernicke'S aphasia
H-Y antigen
36. Consists of myelencephalon - metencephalon - and reticular formation
Telencephalon
Female menstrual cycle (hormones)
Hormones (type)
Hindbrain
37. Presence during development causes a fetus to develop into a male (absence cause the fetus to develop into a female)
H-Y antigen
Agnosia
Gamma-aminobutyric acid (GABA)
Hyperphagia
38. 16 hours of sleep a day - 6 hours
Dendrites
Sleep hours for infants and elderly respectively
Neuron
Spine (subsystem)
39. Between myelin sheath - help send impulse down axon
Steps in neural transmission
Nodes of Ranvier
Limbic system
Sleep cycles
40. Outer half-inch of cerebral hemispheres; - sensory and intellectual functions; - split into frontal - occipital - parietal - temporal lobes; - 90% is neocortex (new in evolution - 6 layers cortex) - 10% < 6 layers and more primitive
Nodes of Ranvier
Cerebral cortex (subsystem)
Axon
Organizational hormones
41. Fissures seen on cortex surface
Stereotaxic instruments
Parasympathetic nervous system
Soma
Sulci
42. ANS - controls arousal mechanisms (blood circulation - pupil dilation - threat and fear response) - Lie detector test relies on the premise -->lying activates the sympathetic nervous system and cause things like (increase heart rate - blood pressure
Sympathetic nervous system
Tegmentum
Synapse gap
Axon hillock
43. Bumps seen on cortex surface
Gyri
Apraxia
Rapid Eye Movement sleep
Schwann cells
44. Bumps on the brainstem - controls auditory reflexes
Presynaptic cell
Basal ganglia
Inferior colliculus
Broca'S aphasia
45. Of diencephalon - controls autonomic nervous system biological motivations (hunger - thirst) and pituitary gland
Schwann cells
Rapid Eye Movement sleep
Hypothalamus
Hippocampus
46. Dysfunction in certain cortical association area - language disorder from damage to Broca'S area - in left frontal lobe; can understand speech but has difficulty speaking (slow - laborious - omits words)
47. Like neurotransmitters but cause long-term changes in postsynaptic cell
Neuromodulators
Superior colliculus
Blooming and pruning
Axon
48. Increase effects of a neurotransmitter (e.g. selective serotonin reuptake inhibitors [for depression] increase serotonin activity)
Autonomic nervous system (subsystems)
Agonists
Organizational hormones
Agnosia
49. Of mesencephalon - vision and hearing
Neurotransmitters
Tectum
Indolamines
Mesencephalon
50. In females - regulate the development of ovum and trigger ovulation - In males - regulate the development of sperm cells and the production of testosterone
Occipital lobe
Gyri
Luteinizing hormone (LH) and follicle stimulating hormone (FSH)
Forebrain (division)