24G 



PROFESSOR JOHN GIBSON 



Table A — continued. 



Cu(N0 3 )., 

 (Long, 1880) 



a = 72-5 

 h= -11-83 



Sr(N0 3 ) 2 



a = 65-l 

 6= -11-89 



Pb(N0 3 ) 2 



a=54-9 

 h = - 10-00 



Cd(N0 3 ) 2 

 (Grotrian, 1883) 



a = 703 

 6= -12-75 



KC.,H 3 2 



a = 760 



&= -11-08 



K 2 S<>, 



a = 849 

 b= -;<-70 



Na 2 SO, 

 a = 67-7 

 6= -13-71 



(NH 4 ) 2 SO, 



(Kohlrausch) 

 a = 75 - l 

 b= -5-41 



II. 



III. 





1000 7) 





{m; 1/v) 



% 



5t 



556 



10 



1-161 



15 



1-820 



20 



2-543 



25 



3-325 



35 



5-136 



iot 



1-026 



15 



1-604 



20 



2-233 



25 



2-920 



35 



4-478 



15f 



1-039 



20 



1-455 



25 



1-916 



30 



2422 



iot 



0-921 



(15) 



1-444 



20 



2-017 



(25) 



2647 



30 



3336 



(35) 



4-092 



40 



4-937 i 



(45) 



5-882 



48 



6497 



4-67t 



0-486 



9-33 



0995 



28-00 



3-276 



46-67 



5-985 



65-331 



9-128 





0-5 



5 



0-596 





1-0 



10 



1-240 





0-5 



5 



0-735 





10 



10 



1-536 



...t 



2-0 



15t 



2-111 



5t 



0-778 



10 



1-601 



20 



3-377 



30 



5-322 



31 



5-528 



IV. 



io 4 « 18 



365 



635 



858 



1018 



1089 



1062 



527 

 690 

 802 

 866 

 861 



429 

 521 

 600 

 668 



513 

 688 

 827 

 919 

 956 

 948 

 903 

 822 

 755 



347 



625 



1256 



1122 



479 



391 

 458 

 718 

 860 



298 

 409 

 508 

 687 

 800 

 886 



552 

 1010 

 1779 

 2292 

 2321 



V. 



VI. 



A = K - 



1000 7 



1 



in 



65-6 



i 



533 



54-7 



1066 



47-1 



1-600 



40-0 



2-131 



32-8 



2 664 



20-7 



3-730 



51-4 



•945 



43-0 



1-417 



359 



1-890 



29-66 



2-361 



19-23 



3-310 



414 



0-906 



35-8 



1-208 



31-3 



1-511 



27-6 



1-813 



55-7 



0-847 



47-6 



1-270 



41-0 



1-694 



34-7 



2-117 



28-7 



2-540 



23-17 



2-964 



18-29 2 



3-384 



13-98 



3-811 



11-62 



4065 



71-4 



0-473 



62-8 



0-951 



38-3 



2853 



18-75 



4-753 



5-25 



6-656 



78-2 



0-484 



76-8 



0-573 



71-8 



0-938 



69-4 



1-147 



59-6 



0-485 



55-6 



0-703 



50-8 



0-943 



44-7 



1-407 



40-0 



1-789 



36-7 



2-110 



71-0 



0-756 



63-1 



1-513 



52-7 



3-026 



43-1 



4-537 



42-0 



4-690 



VII. 



Am obs. 



68-4 

 59-6 

 53-6 



47-7 

 40-9 

 28-5 



55-8 

 48-7 

 42-4 

 36-7 

 26-0 



47-5 

 43-1 

 39-7 

 36-9 



60-5 



54-1 



48-8 



43-4 



37-7 



32-0 



26-68 



21-57 



18-57 



73-4 

 65-7 

 44-0 

 23-61 

 7-20 



80-8 

 79-8 

 76-6 

 75-0 



61-4 

 58-1 

 53-9 

 48-8 

 44-7 

 41-9 



731 



66-8 

 58-8 

 50-6 

 49-5 



VIII. 



A M calc. 



66-2 

 59-9 

 53-6 

 47-4 

 41-1 

 28 4 



53-9 



48-2 

 42-6 

 37-0 

 25-7 



45-8 

 42-8 

 39-8 

 36-8 



59-5 



54-1 



48-7 



43-3 



37-9 



32-5 



27-10 



21-69 



18-45 



70-8 

 65-5 

 44-4 

 23-38 

 2-30 



80-7 

 79-9 

 76-7 

 74-9 



61-0 

 58-1 

 54-7 

 48-4 

 43-3 

 38-7 



71-0 

 66-9 

 58-7 

 50-5 

 49-7 



IX. X. XL 



Percentage Differences. 



Am calc. - A M obs. 



+ 0-5 



±o-o 



-0-6 

 + 0-2 

 -0-4 



-10 

 + 0-5 

 + 0-8 

 -1-2 



-0-7 

 + 0-3 

 -0-3 



-0 

 + 6 

 +T-1 

 -0-5 



-0-3 

 + 0-9 

 -0-9 



-0-1 

 + 0-1 

 + 0-1 

 -0-1 



-0-7 

 ±0-0 

 + 1-5 

 -0-8 

 -10 



+ 0-1 

 -0-2 

 -0-2 

 + 0-4 



-3- 



3-4 



3-4 



-1-7 



-3-5 



-68-0 



-7-6 



-2-9 



±0-0 

 -0-2 

 +T-6 

 + 6-5 



1 In Kohlrausch and Holborn stated as 4-922. 

 - In Kohlrausch and Holborn stated as 18-35. 



