All GRE Subject Test: Psychology Resources
Example Questions
Example Question #1 : Sensation & Perception
People's ability to discern one conversation or focus on one point from another, prioritized by interest, is known as which of the following?
Attentional spotlight
Cocktail party effect
Divided attention
Aural wandering
Specific attention
Cocktail party effect
The cocktail party effect, demonstrated and named by Colin Cherry, illustrates people's ability to selectively attend to common stimuli--even in the presence of several conflicting conversations or auditory stimuli--which the brain identifies as more important. This is demonstrated by people's ability to hear their name, or the voice of a partner or friend, more clearly than other stimuli in a crowded environment.
Example Question #1 : Experimental
Which of the following does not act as a cue for depth perception?
None of these
Dark adaptation
Interposition
Motion parallax
Binocular disparity
Dark adaptation
In 1709, George Berkeley noted various depth cues in the human visual system, including interposition, which refers to the depth cue wherein one object covers or overlaps with another object. A second cue is motion parallax wherein the disparity in speed and motion gives us cues about the relative depth of parts of the object. The last cue is binocular disparity, also known as stereopsis. This cue is linked to the fact that our different eyes provide us with two slightly different views of the world around us. When the brain adds together these two images, we get a perception of depth.
Example Question #2 : Sensation & Perception
Sensory integration can be best describe as which of the following?
None of these
The process of combining different sensory signals
A change in afference caused by external stimuli
When a mixture of lights add together and create the perception of color
A mathematical technique for computing definite integrals of one real variable
The process of combining different sensory signals
The correct answer is the process of combining different sensory signals. To give cause or equal opportunity to each sense and a mathematical technique for computing definite integrals of one real variable are answers that utilize the incorrect definition of integration for this problem. When a mixture of lights add together and create the perception of color is additive color mixture.
Example Question #2 : Experimental
Phyllis is 63 years old, and recently she has noticed that colors do not appear as bright or clear as they used to in her memory. She is having trouble driving and reading, but can still knit and cook with little to no issues (i.e. she remembers the recipes without having to read them). Which of the following conditions is most likely affecting Phyllis?
Glaucoma
Hemeralopia
Cataracts
Prosopagnosia
Macular degeneration
Macular degeneration
Macular degeneration is a degenerative condition affecting the retina and choroid—the blood supply that feeds the retina. In either "dry" or "wet" forms, it causes progressive central blindness while leaving the peripheral vision largely intact. It is estimated that from 40-55 million people worldwide suffer from the condition, which is suspected to have been long under-diagnosed.
Example Question #2 : Vision
Which of the following best defines a feature detector?
The place in the ear where transduction occurs
Cone cells
Structures we use to organize the stimuli in our environment
A neuron that responds to stimuli in one's environment
A neuron that responds to stimuli in one's environment
The interpretation of sensory stimuli is an important biological process. Feature detectors play an important role in the sense of sight. Once visual signals reach the primary visual cortex, specialized visual cells called "feature detectors" code for the elements of stimuli that are most important.
Example Question #2 : Vision
How do infants typically react when placed on a visual cliff? What do these findings suggest?
They move towards the shallow side of the visual cliff. Infants learn early in development to fear heights.
They move towards the shallow side of the visual cliff. A degree of depth perception seems to be innate.
They remain still. Infants have no conception of depth.
None of these
They remain still. Young infants are not yet perceptually aware of depth cues.
They move towards the shallow side of the visual cliff. A degree of depth perception seems to be innate.
Infants will move towards the shallow side of the visual cliff apparatus. This behavior is exhibited a significant percentage of times, even when their mothers stand at the "deep" end, and encourage them to step over the "cliff."
These findings suggest that young infants are aware of depth cues, as in the case of the visual cliff, and are able to modify their behavior appropriately in response to these. The young age of the infants involved in such experimentation suggests that at least a degree of depth perception is innate. It is inconclusive how much of this ability is innate and how much learned, though it seems most likely to be a combination of both 'nature' and 'nurture'. The significance of such studies was to demonstrate that 'nature' had a role.
Example Question #1 : Sensation & Perception
Where does transduction occur in the visual sense?
Cornea
Photoreceptors in the retina
Optic nerve
Ganglion cells in the retina
Pupil and iris
Photoreceptors in the retina
Transduction is the conversion of energy from one form to another. In the context of psychology and sensation, it refers to the conversion of information carrying energy from the environment into information carrying electrical energy within the nervous system. In vision, this involves the conversion of light into electrical energy. This occurs in the retina of the eye, when photopigments break down in the presence of light, and trigger responses in photoreceptor cells, that then transmit the electrical energy to the brain. Ganglion cells also lie within the retina, but these do not play a role in transduction. The pupil allows light to enter the eye and reach the retina, but is not the location of transduction. Neither is the cornea—the outer layer of the eye—nor the optic nerve, which carries information from the retina to the visual cortex.
Example Question #1 : Sensation & Perception
Where is visual acuity the greatest?
Ciliary muscles
Fovea
Retina
Optic nerve
Cornea
Fovea
The fovea is the location of the highest concentration of cones. The cones are the photopigment responsible for color vision, and are associated with high acuity vision. This is relative to rods, which are sensitive under low light conditions, but which do not produce highly accurate visual detail. As the fovea has the highest concentration of cones, it is also the area of greatest visual acuity on the retina. This area is centrally located on the retina, and corresponds to the focus of one's gaze. In other words, the light from any object one focuses on will be falling upon the fovea. This is why our visual acuity is greatest at the center of our visual field. Although the fovea is located on the retina, it would be redundant to describe 'the retina' as the location of the greatest visual acuity, as the retina is the only body organ capable of transducing visual information. The optic nerve exits the eye through an area devoid of photoreceptors, known as the blindspot. This area in fact processes no visual information, and is an incorrect choice. The ciliary muscles are responsible for changing the shape of the lens. These do not contribute to transduction. Last, the cornea is the outer layer of the eye. It does not contribute to transduction.
Example Question #4 : Sensation & Perception
Which scenario best describes the phenomenon of blindsight?
The term for a paranormal ability akin to clairvoyance, in which one is purportedly able to see without the use of their eyes.
None of these
A label for the phenomenon where blind individuals may make informed guesses about visual stimuli through environmental context and the use of their other senses.
An individual is unable to consciously perceive, yet can correctly answer questions about basic visual cues (eg: movement) above a percentage attributable to chance.
An individual has full cortical blindness, but nonetheless confabulates a visual experience, and is unaware of their condition.
An individual is unable to consciously perceive, yet can correctly answer questions about basic visual cues (eg: movement) above a percentage attributable to chance.
Blindsight is a phenomenon wherein an individual is unable to consciously perceive visual stimuli due to cortical blindness, but nonetheless possesses healthy eyes. Individuals evidencing blindsight will be able to correctly guess about basic visual conditions in their environment (i.e. in a laboratory setting) at a higher success rate than could be accounted for by chance alone. These individuals will not report any conscious experience or awareness of the visual details they are 'guessing', and will believe they are simply guessing blindly. It is believed that in these cases, an older component of the visual system, dating back to the reptilian brain and not available to consciousness, is contributing to these "guesses." Anton-Babinski syndrome is a condition in which an individual with cortical blindness will report confabulated visual experiences, and deny their lack of vision. The remaining two answer choices are fictitious and incorrect.
Example Question #2 : Sensation & Perception
Farsightedness, nearsightedness, and astigmatism are visual deficiencies caused by which of the following?
Irregularities in or damage to the visual cortex
None of these
Abnormalities in the physical shape of the eye
Damage to the sensory nerves involved in vision
Psychosomatic conditions, such as body dysmorphic disorder
Abnormalities in the physical shape of the eye
Abnormalities in the shape of the eye are the cause of all of nearsightedness, farsightedness, and astigmatism. Typically nearsightedness and farsightedness are caused by irregularities in the lens of the eye. This causes light to improperly be focused relative to the retina. As a result, either near or far images will appear out of focus, due to the improper adjustment of the lens. In the case of astigmatism, the cornea as well as the lens may be implicated, in which case the an abnormality in the curvature of this front portion of the eye contributes to blurry vision. All of these defects may be corrected by LASIK, or corrective lenses. Damage to the nervous system or the visual cortex would lead to partial or total cortical blindness, not to these conditions. Though some psychological disorders are implicated in visual deficits, they do not play a role in these three.