One Brain or Two - Quiz Review
Sperry, Gazzaniga
Roger BLANK won the Nobel Prize for his work in the functional specialization of the brain, which he taught to one of his most famous students, Michael BLANK.
Michael Gazzaniga
BLANK BLANK (1967) conducted individual case studies on split-brain patients, so called because each of them had his or her corpus callosum severed.
Roger Sperry
BLANK BLANK won the Nobel Prize for his work in the functional specialization of the brain, which he taught to one of his most famous students, Michael Gazzaniga.
Laboratory experiments
Gazzaniga et al. set up BLANK BLANKs in which they changed an independent variable, such as showing a light in either the right or the left side of the subject's vision and then they measured a dependent variable, like whether they could say they saw the light or could only point at it. Any light in the left field of vision could only be pointed at, while lights in the right field of vision could be verbally identified.
Laboratory
Gazzaniga et al. set up BLANK experiments in which they changed an independent variable, such as showing a light in either the right or the left side of the subject's vision and then they measured a dependent variable, like whether they could say they saw the light or could only point at it. Any light in the left field of vision could only be pointed at, while lights in the right field of vision could be verbally identified.
Independent, dependent
Gazzaniga et al. set up laboratory experiments in which they changed an BLANK variable, such as showing a light in either the right or the left side of the subject's vision and then they measured a BLANK variable, like whether they could say they saw the light or could only point at it. Any light in the left field of vision could only be pointed at, while lights in the right field of vision could be verbally identified.
Left, right
Gazzaniga et al. set up laboratory experiments in which they changed an independent variable, such as showing a light in either the right or the left side of the subject's vision and then they measured a dependent variable, like whether they could say they saw the light or could only point at it. Any light in the BLANK field of vision could only be pointed at, while lights in the BLANK field of vision could be verbally identified.
Split-brain
In a BLANK-BLANK patient, when a light is shown in his right field of vision, he can verbally identify it because this field is channeled directly to the left hemisphere, specifically to Broca's Area, which is dedicated to speech production.
Right
In a split-brain patient, when a light is shown in his BLANK field of vision, he can verbally identify it because this field is channeled directly to the left hemisphere, specifically to Broca's Area, which is dedicated to speech production.
Verbally
In a split-brain patient, when a light is shown in his right field of vision, he can BLANK identify it because this field is channeled directly to the left hemisphere, specifically to Broca's Area, which is dedicated to speech production.
Hemisphere
In a split-brain patient, when a light is shown in his right field of vision, he can verbally identify it because this field is channeled directly to the left BLANK, specifically to Broca's Area, which is dedicated to speech production.
Broca's area
In a split-brain patient, when a light is shown in his right field of vision, he can verbally identify it because this field is channeled directly to the left hemisphere, specifically to BLANK BLANK, which is dedicated to speech production.
Speech production
In a split-brain patient, when a light is shown in his right field of vision, he can verbally identify it because this field is channeled directly to the left hemisphere, specifically to Broca's Area, which is dedicated to BLANK BLANK
Gazzaniga
Michael BLANK (1967) conducted individual case studies on split-brain patients, so called because each of them had his or her corpus callosum severed.
Case
Michael Gazzaniga (1967) conducted individual BLANK studies on split-brain patients, so called because each of them had his or her corpus callosum severed.
corpus callosum
Michael Gazzaniga (1967) conducted individual case studies on split-brain patients, so called because each of them had his or her BLANK BLANK severed.
Seizures
Since Michael Gazzaniga's patients had to have surgeries to eliminate BLANKs, he was provided the opportunity to run natural experiments on them to see how the pre-existing absence of the corpus callosum would impact behaviors and perceptions.
Natural
Since Michael Gazzaniga's patients had to have surgeries to eliminate seizures, he was provided the opportunity to run BLANK experiments on them to see how the pre-existing absence of the corpus callosum would impact behaviors and perceptions.
Natural experiments
The key difference between BLANK BLANKs and laboratory experiments is that the independent variable is purposely manipulated by researchers during the second, while it is pre-existing during the first.
Localization
The term BLANK refers to the notion that each different area of the brain has specific functions, as evidenced by the fact that Sarah Scott's stroke created a lesion, damaging Broca's Area and causing aphasia.
Stroke, lesion
The term localization refers to the notion that each different area of the brain has specific functions, as evidenced by the fact that Sarah Scott's BLANK created a BLANK, damaging Broca's Area and causing aphasia.
Broca's
The term localization refers to the notion that each different area of the brain has specific functions, as evidenced by the fact that Sarah Scott's stroke created a lesion, damaging BLANK Area and causing aphasia.
Aphasia
The term localization refers to the notion that each different area of the brain has specific functions, as evidenced by the fact that Sarah Scott's stroke created a lesion, damaging Broca's Area and causing BLANK.
Production, comprehension
Though speech BLANK and BLANK are located in two different parts of the left hemisphere, the first is in the posterior (rear part of the) frontal lobe, and the other is in the medial (middle part of the) temporal lobe.
Medial
Though speech BLANK and BLANK are located in two different parts of the left hemisphere, the first is in the posterior (rear part of the) the frontal lobe, and the other is in the BLANK (middle part of the) temporal lobe.
Posterior
Though speech production and comprehension are located in two different parts of the left hemisphere, the first is in the BLANK (rear part of the) frontal lobe, and the other is in the medial (middle part of the) temporal lobe.
Frontal, temporal
Though speech production and comprehension are located in two different parts of the left hemisphere, the first is in the posterior (rear part of the) BLANK lobe, and the other is in the medial (middle part of the) BLANK lobe.
Case studies
Unique events often lead to often horrible lesions to brain tissue, but it is researchers who perform BLANK BLANKS on these unique individuals that bring to light localized functions that had been produced in these areas before the damage occurred.
Localization, lateralization
Whereas BLANK is the term that denotes specific brain functions occurring in and relying upon different areas of the brain, BLANK refers to the communication process that occurs between these various locations, made possible by connecting neurons.
Broca's aphasia
Within the decade that followed the discovery of Tan's lesion and the resulting BLANK BLANK, Carl Wernicke discovered a lesion in another patient's brain, this time in the temporal lobe, which robbed the subject of speech comprehension, a problem called Wernicke's aphasia.
Carl Wernicke
Within the decade that followed the discovery of Tan's lesion and the resulting Broca's aphasia, BLANK BLANK discovered a lesion in another patient's brain, this time in the temporal lobe, which robbed the subject of speech comprehension, a problem called Wernicke's aphasia.
Temporal lobe
Within the decade that followed the discovery of Tan's lesion and the resulting Broca's aphasia, Carl Wernicke discovered a lesion in another patient's brain, this time in the BLANK BLANK, which robbed the subject of speech comprehension, a problem called Wernicke's aphasia.
speech comprehension
Within the decade that followed the discovery of Tan's lesion and the resulting Broca's aphasia, Carl Wernicke discovered a lesion in another patient's brain, this time in the temporal lobe, which robbed the subject of BLANK BLANK, a problem called Wernicke's aphasia.
Wernicke's aphasia
Within the decade that followed the discovery of Tan's lesion and the resulting Broca's aphasia, Carl Wernicke discovered a lesion in another patient's brain, this time in the temporal lobe, which robbed the subject of speech comprehension, a problem called BLANK BLANK.