Deck 9: Perceiving Color

A) would have difficulty with figure-ground segregation.
B) would have a better chance of surviving than a color-blind monkey.
C) would be equally able to survive as a color-blind monkey.
D) is impossible; all monkeys are color-blind.

A) 2
B) 3
C) 4
D) 5

A) an electromagnetic color mixture.
B) an additive color mixture.
C) a subtractive color mixture.
D) a transitive color mixture.

A) large firing from the S receptor, medium firing from the M receptor, and little firing from the L receptor.
B) large firing from the S receptor, large firing from the M receptor, and little firing from the L receptor.
C) little firing from the S receptor, a moderate firing from the M receptor, and large firing from the L receptor.
D) large firing from the S receptor, large firing from the M receptor, and large firing from the L receptor.

A) the pattern of activity in four different receptors.
B) the activity pattern in the occipital, parietal, and temporal cortical lobes.
C) the pattern of activity in three different receptors.
D) processing in layers 1,2, and 3 in the LGN.

A) saturation
B) intensity
C) wavelength
D) saturation, intensity, and wavelength

A) a viscous color mixture.
B) an additive color mixture.
C) a subtractive color mixture.
D) a pigmentive color mixture.

A) white.
B) gray.
C) green.
D) purple.

A) white.
B) gray.
C) green.
D) purple.

A) reflect short wavelengths.
B) reflect long wavelengths only.
C) reflect all wavelengths equally.
D) reflect long and short wavelengths.

A) knowing that a banana is ripe when it is yellow.
B) knowing to stop at a red light.
C) both knowing to stop at a red light and knowing banana ripeness.
D) none of these; signaling is not a function of color.

A) spatial frequency.
B) contrast.
C) wavelength.
D) orientation.

A) red, white, blue and green.
B) black, white, and gray.
C) red, green, and blue.
D) red, green, blue and yellow.

A) reflect mostly short wavelengths, a moderate amount of medium wavelengths, and a little of the long wavelengths.
B) reflect mostly long wavelengths, a small amount of medium wavelengths, and a little of the short wavelengths.
C) reflect a little of short wavelengths, a large amount of medium wavelengths, and a little of the long wavelengths.
D) reflect long, medium and short wavelengths equally.

A) hue.
B) wavelength.
C) brightness.
D) saturation.

A) 308
B) 419
C) 531
D) 558

A) 419
B) 531
C) 558
D) 747

A) complements.
B) Rayleigh stimuli.
C) metamers.
D) isomers.

A) Seurat-Signac
B) Hering
C) Young-Helmholtz
D) Young-Adhart

A) chromatic adaptation
B) the ratio principle
C) isomerization
D) neural circuitry

A) color afterimages
B) color matching
C) visual pigment absorption rates
D) the univariance effect

A) retina only
B) LGN only
C) superior colliculus only
D) both the retina and LGN

A) the retina.
B) the LGN.
C) both the retina and LGN.
D) a "color center" in the cortex.

A) anomalous trichromacy.
B) neutral point univariance.
C) color constancy.
D) area centralis.

A) has trichromatic vision in one eye and dichromatic vision in the other eye.
B) can only see black, white, and grays.
C) can match any wavelength with three wavelengths in the comparison field, but is not as good as trichromats at discriminating small differences in wavelengths.
D) is more common in the U.S. than protonopes.

A) intensity
B) adjustments
C) univariance
D) unitization

A) 405
B) 492
C) 570
D) 690

A) one
B) two
C) three
D) no visual pigments are required.

A) has only one type of cone pigment due to genetic causes.
B) has only two types of cone pigments.
C) has normal cone functioning, but can not experience color due to a brain injury.
D) paradoxically can experience color cortically from stimulation from the rods.

A) color afterimages
B) visualizing color combinations
C) simultaneous color contrast
D) all of these

A) a saturated yellow.
B) green.
C) blue.
D) red.

A) Black (-); White (+)
B) Red (+); Green (-)
C) Blue (+); Green (-)
D) Blue (-); Yellow (+)

A) exactly the same.
B) different, with the light bulb distribution having much higher amounts of energy at long wavelengths.
C) different, with the light bulb distribution having much higher amounts of energy at short wavelengths.
D) different, with the sunlight distribution having much higher amounts of energy at long wavelengths.

A) red; green
B) green; black
C) blue; white
D) pink; red

A) short
B) medium
C) long
D) short and long

A) Males are more likely to be dichromats than females.
B) Experience, not genetics, is the major cause of dichromacy.
C) There are six major forms of dichromacy.
D) There are nine major forms of dichromacy.

A) black, white, and grays.
B) black, grays, and greens.
C) different shades of red.
D) different shades of blue.

A) deuteranopia.
B) protanopia.
C) tritanopia.
D) fruitopia.

A) The physiological support for the trichromatic theory is greater than the support for the opponent-process theory.
B) The physiological evidence for the opponent-process theory has shown that the trichromatic theory is incorrect.
C) The psychophysical evidence for the trichromatic theory has shown that the opponent-process theory is incorrect.
D) The physiology of the cone receptors and the discovery of opponent cells in the retina and LGN show that both theories are correct.

A) the 480 nm stimulus.
B) the 540 nm stimulus.
C) both of the 480nm and 540nm stimulus.
D) neither the 480 nm nor the 540 nm stimulus.

A) reflectance edge.
B) illumination edge.
C) ratio edge.
D) Ishihara border.

A) reddish
B) yellowish
C) white
D) violet

A) chromatic adaptation.
B) re-adaption.
C) isomerization.
D) corticalization.

A) Participants recall words printed in red ink better than words printed in black ink.
B) Participants can quickly identify the word "Blue" if printed in blue ink.
C) Participants have difficulty reporting ink color if the word is the name of a color different than the ink color.
D) Participants perceive a 620-nm pattern as being "redder" if that pattern has the shape of a stop sign rather than a mushroom shape.

A) illumination edge; flat
B) illumination edge; 3-D
C) reflectance edge; flat
D) reflectance edge; 3-D

A) short
B) medium
C) long
D) None of the above; visible light for honeybees and humans are the same range of wavelengths.

A) surrounding colors are masked.
B) chromatic adaptation occurs.
C) a color object is surrounded by one other color.
D) a color object is surrounded by many different colors.

A) we can determine the accuracy of color perception by measuring the wavelength of the light.
B) colors are created by our perceptual system.
C) the experience of color is not arbitrary.
D) a 450 nm pattern will look the identical shade of blue to all human trichromats.

A) remains constant.
B) changes from an illumination edge to a reflectance edge.
C) changes from a reflectance edge to an illumination edge.
D) can be predicted from the ratio principle.

A) lightness constancy will occur as long as the ratio of light reflected from a white surface and a black surface remain constant.
B) lightness constancy will occur if the ratio of light reflected from a white surface and a black surface increases as the overall light intensity increases.
C) lightness constancy will occur if the ratio of light reflected from a white surface and a black surface decreases as the overall light intensity increases.
D) lightness constancy can never occur.