Biosychology

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    Blue-eyedZebra50307

    Cards (69)

    • What are the two main components of the nervous system?
      CNS and PNS
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    • What happens in the fight-or-flight response?
      • Amygdala sends distress signal to hypothalamus
      • Sympathomedullary pathway (SAM pathway) is activated
      • Adrenaline is released from the adrenal gland
      • Increases heart rate, breathing, and sweat production
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    • What role does adrenaline play in the fight-or-flight response?
      It leads to increased heart rate, breathing, and sweat production.
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    • What does the parasympathetic nervous system do after the fight-or-flight response?
      It returns the body to its normal resting state.
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    • What are the main functions of the brain and spinal cord in the CNS?
      • Brain: provides conscious awareness and different functions
      • Spinal Cord: transfers messages and controls simple reflex actions
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    • What does the somatic nervous system do?
      It facilitates communication between the CNS and the outside world.
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    • What is the role of the autonomic nervous system?
      It maintains internal processes like body temperature and heart rate.
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    • What are the two branches of the autonomic nervous system?
      • Sympathetic Nervous System: involved in fight or flight
      • Parasympathetic Nervous System: slows down heart rate and breathing after danger
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    • What are some critiques of the fight-or-flight response?
      • Initial 'freeze' response is not considered
      • Females may adopt a 'tend and befriend' response
      • May not be suitable for modern-day situations
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    • What does the endocrine system do?
      It secretes hormones using blood vessels.
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    • What are some key hormones and their functions?
      • Adrenaline: key for fight or flight
      • ACTH: released by the pituitary gland, a stress hormone
      • Testosterone: affects puberty and aggression
      • Melatonin: regulates sleep-wake cycle
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    • Where are sensory neurons found?
      In receptors such as the eyes, ears, tongue, and skin.
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    • What is the function of relay neurons?
      They allow sensory and motor neurons to communicate.
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    • What do motor neurons control?
      Muscle movements.
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    • How does synaptic transmission occur in the brain?
      • Information is passed as an electrical impulse
      • Vesicles release neurotransmitters across the synapse
      • Neurotransmitters bind to receptor sites
      • Results in excitatory or inhibitory effects
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    • What is the effect of excitatory neurotransmitters?
      They make the post-synaptic cell more likely to fire.
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    • What is the effect of inhibitory neurotransmitters?
      They make the post-synaptic cell less likely to fire.
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    • What is localisation in the brain?
      • Certain functions have specific locations in the brain
      • Examples include language and memory
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    • What is hemispheric lateralisation?
      • Two halves of the brain have functional specialisations
      • Left hemisphere is dominant for language
      • Right hemisphere excels at visual-motor tasks
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    • What did Sperry and Gazzaniga's research demonstrate about the left hemisphere?
      It is superior for language production.
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    • Where is the motor area located in the brain?
      In the frontal lobe.
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    • What is the function of Broca's area?
      It is responsible for speech production.
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    • What is the function of Wernicke's area?
      It is responsible for speech comprehension.
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    • What are some critiques of localisation and lateralisation?
      • Equipotentiality theory suggests higher functions are not localised
      • Gender differences in brain areas are ignored
      • Importance of communication between brain areas is emphasized
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    • What is brain plasticity?
      • The brain's ability to change and adapt due to experience
      • Involves creating new neural pathways and altering existing ones
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    • What is functional recovery in the brain?
      • Transfer of functions from damaged areas to undamaged areas
      • Involves neuronal unmasking to compensate for damage
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    • What did Kuhn et al. find regarding video game play and brain structure?
      Significant increase in grey matter after playing for 30 minutes a day for 2 months.
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    • What correlation did Maguire et al. find in London taxi drivers?
      Posterior hippocampal volume positively correlated with time as a taxi driver.
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    • What did Davidson et al. demonstrate about meditation and brain activity?
      Permanent change in the brain with greater activation of gamma waves in frequent meditators.
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    • What are post-mortems used for in psychology?
      • To study the physical brain of individuals with specific behaviors
      • Allows examination of deeper brain regions
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    • What did Kuhn et al. find regarding grey matter in the brain?
      They found a significant increase in grey matter after participants played video games for 30 minutes a day for 2 months.
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    • How did Maguire et al. relate the posterior hippocampal volume to London taxi drivers?
      They found a positive correlation between the posterior hippocampal volume and the time spent as a taxi driver.
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    • What significant difference did Maguire et al. find between taxi drivers and controls?
      There were significant differences in the brains of taxi drivers compared to those of controls.
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    • What did Davidson et al. demonstrate about the effects of prolonged meditation?
      They demonstrated a permanent change in the brain with greater activation of gamma waves in frequent meditators.
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    • What is the purpose of post-mortem studies in psychology?
      To study the physical brain of a person who displayed particular behaviors suggesting possible brain damage.
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    • What advantage do post-mortem studies provide researchers?
      They enable examination of deeper brain regions, such as the hypothalamus and hippocampus.
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    • What is a limitation of post-mortem studies regarding causation?
      The deficits displayed during a patient's lifetime may not be linked to the brain deficits found post-mortem.
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    • What did Iverson find in his examination of deceased schizophrenic patients?
      He found a higher concentration of dopamine in their brains.
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    • What is a key feature of fMRI scans?
      They measure blood flow in the brain when a person performs a task.
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    • How does an fMRI detect brain activity?
      It detects the magnetic qualities of deoxygenated and oxygenated hemoglobin.
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