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GRE Psychology: Perception Sensation

Instructions:

Answer 50 questions in 15 minutes.
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Match each statement with the correct term.
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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. The optic nerve is made up of...
Purkinje shift
Ganglion cells
Perceptual Development
Dark adaptation

2. The moon looks larger when we see it on the horizon than when we see it in the sky. This is because the horizon contains visual cues that make the moon seem more distant than the overhead sky.
Moon Illusion
J.A. Swet'S Theory of Single Detection (TSD)
E.H. Weber
Receptive Field

3. The tendency to perceive a smooth motion. This explains why motion is perceived when there is none - often by the use of flashing lights or rapidly shown still-fram pictures - such as in the perception of cartoons. This is apparent motion
Receptive Field
3 steps involving sensation
Gestalt Psychology
Phi Phenomenon

4. Located in the back of the eye - receives light images from the lens. It is composed of about 30 million photoreceptor cells and of other cell layers that process information
Terminal Threshold
Retina
Middle ear
Visual Acuity

5. The clear protective coating on the outside of the eye
Hermann Von Hemholtz
Cornea
Striate cortex to the visual association areas of the cortex
Sensation

6. 1. closure 2. Proximity 3. Continuation or good continuation 4. Symmetry 5. Constancy 6. Minimum principle
Gestat Ideas
Dark adaptation
Size Constancy
Robert Frantz

7. Located by the cornea
Lens
McCollough Effect
Dark adaptation
Retina

8. Discovered that cells in the visual cortex were so complex and specialized that they respond to certain types of stimuli. For example - some cells only respond to vertical lines - whereas some respond to only right angles.
David Hubel and Torsten Wiesel
Lateral Inhibition
Differential Threshold
Weber'S Law

9. Refers to the entire span that can be perceived or detected by the eye at a given moment.
Opponent Color or Opponent Process Theory
Hermann Von Hemholtz
Sensation
Visual Field

10. The physical intensity of light
Neural Pathways
Absolute threshold
Receptor Cells
Brightness

11. The eyes are connected to the cerebral cortex by...
The visual pathway
Ewald Hering
Inner ear
Robert Frantz

12. The most famous of all visual illusions. Two horizontal lines of equal length appear unequal because of the orientation of the arrow marks at the end. Inward facing arrow marks make the line appear shorter than another line of the same length with ou
False alarm
Muller-Lyer Illusion
Visual Acuity
Optic Chasm

13. Is the upper limit above which the stimuli can no longer be perceived. -The highest pitch sound a human could hear
Rods
Continuation
Gestat Ideas
Terminal Threshold

14. Famous for the theory of color blindness
binoculary disparity
Hermann Von Hemholtz
Color constancy
Cornea

15. Applies to all senses but only to a limited range of intensities. The law states that a stimulus needs to be increased by a constant fraction of its original value in order to be noticeably different

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16. Developed the visual cliff to study whether depth perception was innate
Size Constancy
Ganglion cells
Eleanor Gibson and Richard Walk
Closure

17. Suggests that there are three types of receptors in the retina: cones that respond to red - blue - or green
Ewald Hering
Tri-color Theory (component theory)
Fovea
False alarm

18. The center of the retina; has the greatest visual acuity
Weber'S Law
Dark adaptation
Size Constancy
Fovea

19. Defined the Just Noticeable Difference
Response Bias
Weber'S Law
3 steps involving sensation
E.H. Weber

20. A thick layer of glass above a surface that dropped off sharply. The glass provided solid - level ground doe subjects to move across in spite of the cliff below. Animals and babies were used as subjects and both groups avoided moving into the 'cliff'
Visual Cliff
Response Bias
Robert Frantz
Current thinking about sensation and perception

21. Are concentrated in the center of the retina. They are sensitive to color and daylight vision.
Differential Threshold
Phi Phenomenon
Weber'S Law
Cones

22. 1. Reception 2. Sensory Transduction 3. Neural Pathways
Opponent Color or Opponent Process Theory
3 steps involving sensation
Ciliary Muscles
Perceptual Development

23. Proposed the tri-color theory - research shows that the opponent-process theory seems to be at work in the Lateral geniculate body - research shows that the tri-color theory seems to be at work in the Retina
Current thinking about sensation and perception
Thomas Young and Hermann von Hemholtz
Differential Threshold
McCollough Effect

24. A theory for color vision. It suggests that two types of color sensitive cells exist: Cones that respond to blue-yellow colors and cones that respond to red-green. When one color of the cone is stimulated - the other is inhibited.
After light passes through receptors
Opponent Color or Opponent Process Theory
Visual Acuity
J.A. Swet'S Theory of Single Detection (TSD)

25. Refers to how we see texture or fine detail differently from different distances
After light passes through receptors
Dark adaptation
texture gradient
Visual Field

26. Refers to the relationship between the meaningful part of a picture and the background
Figure and ground relationship
McCollough Effect
J.A. Swet'S Theory of Single Detection (TSD)
Sensation

27. Is the tendency to create a whole or detailed figure based on our expectations rather than what is seen
Ciliary Muscles
Continuation
Frequency
Response Bias

28. The physical intensity of a sound wave largely determines loudness
Amplitude
Gestat Ideas
apparent size
Ponzo Illusion

29. Ambiguous figures - such as the Rubin vase. They can be perceived as two different things depending on which part you see as the figure and which part you see as the background.
James Gibson
Light
texture gradient
Figure-Ground Reversal Patterns (illusion)

30. Allow the cornea to bend (accommodate) in order to focus an image of the outside world onto the retina
texture gradient
Receiver operating characteristic
Ciliary Muscles
apparent size

31. Best at seeing fine details
Perception
Purkinje shift
Symmetry
Visual Acuity

32. Where half of all fibers from the optic nerve of each eye cross over and join the optic nerve from the other eye. This insures input from each eye will be put together in a full picture in the brain.
Ganglion cells
Mental set
Gestalt Psychology
Optic Chasm

33. The part of the world that triggers a particular neuron
Impossible Objects
Absolute threshold
Receptive Field
Phi Phenomenon

34. Proposed the perceptual development and optic array
James Gibson
Neural Pathways
There are fewer cones per ganglion cells
Visual Acuity

35. Electrical impulses travel down these to the brain - where the information is understood
Neural Pathways
Optic Chasm
Tri-color Theory (component theory)
Visual Cliff

36. Is the tendency to see what is easiest or logical to see
texture gradient
Nativist Theory
Minimum principle
Retina

37. Objects that have been drawn and can be perceived but are geometrically impossible
Lens
apparent size
Mental set
Impossible Objects

38. Or overlap of objects shows which objects are closer
Structuralist Theory
Terminal Threshold
Dark adaptation
interposition

39. Is knowing the color of an object even with tinted glasses on
Color constancy
E.H. Weber
Autokinetic effect
Gestat Ideas

40. How people perceive objects in the way that they are familiar with them - regardless of changes in the actual retinal image. A book - for example - is perceived as rectangular in shape no matter what angle it is seen from.
Weber'S Law
Cones
Constancy
Prosopagnosia

41. Is the inability to recognize faces
Receptive Field
Figure and ground relationship
interposition
Prosopagnosia

42. Found that infants prefer relatively complex and sensational displays
Gestalt Psychology
After light passes through receptors
Perception
Robert Frantz

43. Rods and cones on the retina that are responsible for sensory transduction.
Receptor Cells
Outer ear
Weber'S Law
Figure and ground relationship

44. How we organize or experience sensations
Neural Pathways
Figure and ground relationship
Dark adaptation
Perception

45. Says that the strength of a stimulus must be significantly increased to produce a slight difference in sensation

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46. After images are perceived because of fatigued receptors. Because our eyes have a partially oppositional system for seeing colors - such as red-green or black-white - once on side is overstimulated and fatigued - it can no longer respond and is overs
Middle ear
James Gibson
Visual Pathway
McCollough Effect

47. The way that a single point of light viewed in darkness will appear to shake or move. the reason for this is the movement of our own eyes
Autokinetic effect
Visual Acuity
J.A. Swet'S Theory of Single Detection (TSD)
Phi Phenomenon

48. Consists of the parts you see called the pinna and the auditory canal. Vibrations from sound move down this canal to the middle ear.
Closure
Outer ear
Striate cortex to the visual association areas of the cortex
Receiver operating characteristic

49. Is composed of photons and waves measured by brightness and wavelengths
Striate cortex to the visual association areas of the cortex
Opponent Color or Opponent Process Theory
Proximity
Light

50. The pace of vibrations or sound waves per second for a particular sound - determines pitch. Frequencies are measured in Hertz
Frequency
The visual pathway
Mental set
Brightness