Measurements of DeltaI as a function of retinal area illuminated have been obtained at various levels of standard intensity I(1), using "white" light and light of three modal wave-lengths (lambda465, 525, 680), for monocular stimulation and for simultaneous excitation of the two eyes ("binocular"), using several methods of varying (rectangular) area and retinal location, with control of exposure time. For data homogeneous with respect to method of presentation, log DeltaI(m) = -Z log A + C, where DeltaI = I(2) - I(1), A is area illuminated, and C is a terminal constant (= log DeltaI(m) for A = 1 unit) depending on the units in which DeltaI and A are expressed, and upon I(1). The equation is readily deduced on dimensional grounds, without reference to specific theories of the nature of DeltaI or of retinal area in terms of its excitable units. Z is independent of the units of I and A. Experimentally it is found to be the same for monocular and binocular excitations, as is to be expected. Also as is expected it is not independent of lambda, and it is markedly influenced by the scheme according to which A is varied; it depends directly upon the rate at which potentially excitable elements are added when A is made to increase. For simultaneous excitation of the two eyes (when of very nearly equivalent excitability), DeltaI(B) is less than for stimulation of either eye alone, at all levels of I(1), A, lambda. The mean ratio (DeltaI(L) + DeltaI(R))/2 to DeltaI(B) was 1.38. For white light, doubling A on one retina reduces DeltaI(m) in the ratio 1.21, or a little less than for binocular presentation under the same conditions. These facts are consistent with the view that the properties of DeltaI are quantitatively determined by events central to the retina. The measure sigma(1DeltaI) of organic variation in discrimination of intensities and DeltaI(m) are found to be in simple proportion, independent of I(1), A, lambda (and exposure time). Variability (sigma(1DeltaI)) is not a function of the mode of presentation, save that it may be slightly higher when both retinas are excited, and its magnitude (for a given level of DeltaI(m)) is independent of the law according to which the adjustable intensity I(2) is instrumentally controlled.