&magicnumber=20&question1=Our threshold for detecting differences are roughly a constant proportion of the size of the stimulus&question2=The diminishing sensitivity to an unchanging stimulus&question3=determines hue/color&question4=the height of the wave: influences brightness&question5=The light-sensitive inner surface of the eye. Contains rods, cones, and neurons&question6=nerve cells in the visual cortext that respond to specific features such as shape, angle or movement&question7=This theory explains an after-effect&question8=pitch&question9=loudness/intensity&question10=complexity&question11=the theory that links the pitch we hear with the place where the cochlea's membrane is stimulated&question12=the theory that the rate of nerve impulses traveling up the auditory nerve matches the frequency of a tone, thus enabling us to sense its pitch&question13=neurons alternate their firing to attain rates over 1000 Hz&question14=an organized whole&question15=we group nearby objects together&question16=we perceive smooth, continues patterns rather than discontinuous ones&question17=the greater the disparity between the location of 2 images on the retina the closer the object&question18=closer objects obscure further objects&question19=objects low in the visual field appear closer&question20=a mental predisposition to perceive one thing and not another; an activated or available mental concept&answer1=Weber's law&answer2=sensory adaption&answer3=wave length&answer4=intensity/amplitude&answer5=Retina&answer6=feature detectors&answer7=the opponent-process theory&answer8=frequency&answer9=amplitude&answer10=timbre&answer11=place theory&answer12=frequency theory&answer13=volley principle&answer14=gestalt&answer15=proximity&answer16=continuity/smoothness&answer17=retinal disparity&answer18=interposition&answer19=relative hight&answer20=perceptual set&gamename=Match me!!!&loadresult=Load Success!