Injury, recovery, and death, in relation to conductivity and permeability . X NaClo CaCl2n Sea Water D. 20-f 4oo MINUTES 800 Fia. 48.—Curves showing the net electrical resistance of Laminaria agardhii in M,in CaCh M and in sea water. Unbroken line, calculated values; broken line, observedvalues. Average of ten or more experiments; probable error of the mean leas than 10% of the mean. During the subsequent exposure to CaCls ^o diminishedto ^1 according to the formula -()360 and this value was used in calculating the fall of resist-ance during the final exposure to NaCl. Exp
Injury, recovery, and death, in relation to conductivity and permeability . X NaClo CaCl2n Sea Water D. 20-f 4oo MINUTES 800 Fia. 48.—Curves showing the net electrical resistance of Laminaria agardhii in M,in CaCh M and in sea water. Unbroken line, calculated values; broken line, observedvalues. Average of ten or more experiments; probable error of the mean leas than 10% of the mean. During the subsequent exposure to CaCls ^o diminishedto ^1 according to the formula -()360 and this value was used in calculating the fall of resist-ance during the final exposure to NaCl. Experiments similar to those shown in Pigs. 44, 45, 46,47, and 48 have been made, in which mixtures of NaClplus CaCl2 have been used in a variety of ways. In thiscase we employ for the calculations the constants appro- INJURY AND RECOVERY 121 priate for each mixture, as ^iveii on page 140. In generalthe agreement is satisfactory. With so large a number of constants it might seempossible to fit any sort of curve, and hence the significanceof the actual accomplishment might be lessened. This,however,
Size: 1799px × 1389px
Photo credit: © The Reading Room / Alamy / Afripics
License: Licensed
Model Released: No
Keywords: ., bookcentury1900, bookdecade1920, booksubjectphysiology, bookyear1
