Test your basic knowledge |

GRE Psychology: Perception Sensation

Instructions:

Answer 50 questions in 15 minutes.
If you are not ready to take this test, you can study here.
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. Knowing that an elephant is large no matter how it might appear
Visual Cliff
Visual Pathway
Color constancy
Size Constancy

2. Are concentrated in the center of the retina. They are sensitive to color and daylight vision.
False alarm
Prosopagnosia
Cones
Ganglion cells

3. How we organize or experience sensations
Perception
Continuation
Photopigments
Differential Threshold

4. Best at seeing fine details
Cones
Lens
Visual Acuity
Terminal Threshold

5. Comes from the complexity of the sound wave
Striate cortex to the visual association areas of the cortex
Light
Timbre
Proximity

6. The chemical that aids the receptor cells in transduction
Ganglion cells
Photopigments
Outer ear
Absolute threshold

7. We see objects because of the light they reflect
Vision
Cones
Eleanor Gibson and Richard Walk
Lateral Inhibition

8. Curces are graphical representations of a subject'S sensitivity to a stimulus
Miss
Receiver operating characteristic
motion parallax
Moon Illusion

9. Suggests that subjects detect stimuli not only because they can but also because they want to. TSD factors motivation into the picture.

Warning: Invalid argument supplied for foreach() in /var/www/html/basicversity.com/show_quiz.php on line 183

10. 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

Warning: Invalid argument supplied for foreach() in /var/www/html/basicversity.com/show_quiz.php on line 183

11. 1. closure 2. Proximity 3. Continuation or good continuation 4. Symmetry 5. Constancy 6. Minimum principle
Thomas Young and Hermann von Hemholtz
David Hubel and Torsten Wiesel
Autokinetic effect
Gestat Ideas

12. 1. Reception 2. Sensory Transduction 3. Neural Pathways
Vision
Eleanor Gibson and Richard Walk
3 steps involving sensation
Nativist Theory

13. Refers to the relationship between the meaningful part of a picture and the background
Muller-Lyer Illusion
Figure and ground relationship
Striate cortex to the visual association areas of the cortex
Autokinetic effect

14. 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
Thomas Young and Hermann von Hemholtz
Opponent Color or Opponent Process Theory
Autokinetic effect
Striate cortex to the visual association areas of the cortex

15. Electrical impulses travel down these to the brain - where the information is understood
Fovea
Cones
Neural Pathways
Dark adaptation

16. Is knowing the color of an object even with tinted glasses on
Current thinking about sensation and perception
Color constancy
Size Constancy
Hermann Von Hemholtz

17. The clear protective coating on the outside of the eye
Cornea
Fovea
Ganglion cells
After light passes through receptors

18. The physical intensity of a sound wave largely determines loudness
Visual Cliff
E.H. Weber
Amplitude
Prosopagnosia

19. 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.
Opponent Color or Opponent Process Theory
texture gradient
Optic Chasm
interposition

20. 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
Optic Array
Autokinetic effect
1000hz
Purkinje shift

21. How movement is perceived though the displacement of objects over time - and how this motion takes place at seemingly different paces for nearby or faraway objects. Ships far away seem to move more slowly than ships moving at the same speed.
Optic Chasm
motion parallax
Optic Array
David Hubel and Torsten Wiesel

22. Has monocular and binocular cues
Linear perspective
Visual Pathway
Amplitude
Depth perception

23. Is when two horizontal lines of equal length appear unequal because of two vertical lines that slant inward
Ponzo Illusion
Absolute threshold
Miss
Fechner'S Law

24. Also known as just noticeable difference. The minimum difference that must occur between two stimuli - in order for them to be perceived as having different intensities.
Striate cortex to the visual association areas of the cortex
Differential Threshold
Optic Array
Receptive Field

25. Is the upper limit above which the stimuli can no longer be perceived. -The highest pitch sound a human could hear
Absolute threshold
Receptor Cells
Terminal Threshold
3 steps involving sensation

26. It travels through the horizontal cells to the bipolar cells to the amacrine cells. Finally the information heads to the ganglion cells.
Symmetry
After light passes through receptors
Current thinking about sensation and perception
Perceptual Development

27. Correctly sensing a stimulus
Ciliary Muscles
Hit
Fechner'S Law
Optic Chasm

28. 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
Impossible Objects
Striate cortex to the visual association areas of the cortex
Hue
Phi Phenomenon

29. Is the way that perceived color brightness changes with the level of illumination in the room. With lower levels of illumination - the extremes of the color spectrum (especially red) are seen as less bright
Gestalt Psychology
Cones
Purkinje shift
Prosopagnosia

30. 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.
Striate cortex to the visual association areas of the cortex
Optic Chasm
Ganglion cells
Mental set

31. Why do cones see better than rods?
E.H. Weber
Fechner'S Law
The visual pathway
There are fewer cones per ganglion cells

32. Developed the visual cliff to study whether depth perception was innate
Eleanor Gibson and Richard Walk
binoculary disparity
Receptor Cells
Fovea

33. The optic nerve is made up of...
Linear perspective
Ganglion cells
Structuralist Theory
Light

34. Asserts that perception is the sum total of sensory input. The world is understood through bottom-up processing
Structuralist Theory
Photopigments
binoculary disparity
1000hz

35. Or overlap of objects shows which objects are closer
Terminal Threshold
interposition
Optic Chasm
Light

36. 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
Ambiguous Figures (illusion)
Gestalt Psychology
Middle ear
McCollough Effect

37. Famous for the theory of color blindness
Moon Illusion
Hermann Von Hemholtz
Figure and ground relationship
apparent size

38. 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.
Fechner'S Law
Perception
Constancy
Weber'S Law

39. The feeling that results from physical stimulation
Sensation
False alarm
3 steps involving sensation
Correct Rejection

40. He tendency to group together items that are near each other
Vision
Differential Threshold
Proximity
Constancy

41. Proposed the opponent color/process theory
Ewald Hering
Moon Illusion
Receptor Cells
Reception

42. Has been explained as the increasing ability of a child to make finer discriminations among stimuli.
Outer ear
texture gradient
Tri-color Theory (component theory)
Perceptual Development

43. Located by the cornea
Lens
Timbre
Moon Illusion
J.A. Swet'S Theory of Single Detection (TSD)

44. Takes place when receptors for a particular sense detect a stimulus.
Ewald Hering
Reception
David Hubel and Torsten Wiesel
Receiver operating characteristic

45. Begins with the tympanic membrane (eardrum) which is stretch across the auditory canal. Behind this membrane are the Ossicles (3 small bones) - the last of which is the stapes. Sound vibrations bump against the tympanic membrane - causing the ossicl
Size Constancy
Light
McCollough Effect
Middle ear

46. Is gained by features we are familiar with - such as two seemingly parallel lines that converge with distance
Middle ear
Linear perspective
Continuation
The visual pathway

47. The pace of vibrations or sound waves per second for a particular sound - determines pitch. Frequencies are measured in Hertz
Brightness
Lateral Inhibition
Frequency
Cones

48. All the things a person sees trains them to perceive
Symmetry
Optic Array
Differential Threshold
David Hubel and Torsten Wiesel

49. Can be perceived as two different things depending on how you look at them
Visual Field
Fovea
Ambiguous Figures (illusion)
texture gradient

50. Has been called the most important depth cue. Our eyes view objects from two slightly different angles - which allows us to create a 3-dimensional figure
Terminal Threshold
Frequency
Proximity
binoculary disparity