AT4 Mr. R. Hosking on the Electrical 
TABLE B.-—Viscosity of LiCl Solutions. 

LiCl Solutions. 


| Temp. ‘Water. es ' 
| a 2. 2 4. 5. Gir 2 ee 8. 



| — — | ——_—_—___._—_ 


| 0° C.|-01794 |-01802 |-01806 |-01894 -02025 -02652 |-03558 05576 |1290 
10 {01309 |-01310 |-01320 |-01397 |01497 01965 |-02652 |04150 |-0937 
18 —_|:01060 |-01061 |-01070 |-01138 |-01212 |-01600 |-02169 |-03365 |-0739 
20 —_|:01009 |-01612 |-01020 |-01075 |:01154 01527 02070 |-03204 |:0699 
30 |'00802 |-00804. |-00810 |:00859 |:00920 |-01228 |-01664 -02562 |0540 
| 40 —_|00659 |-00659 |00668 |-00706 |-00758 |'01012 01366 |-02112 |-0431 
50 = |'00554 |:00554 |-00561 | 00595 -006386 |-00853 01156 -01751 |-03552 
60 = |00472 |-00472 |-00479 |00510 |-00542 | 00728 00995 01482 |-02957 
70 00408 |:00408 00414 |-00441 |-00474 |-00632 -00865 |-01289 -02508 
80 00358 |-00358 |-00363 |-00390 |00417 00558 -00764 01188 02161 
90 —_|'00319 |-00319 |:00323 |-00346 |-00368 |-00496 00686 -01003 |-01885 
100 ——|-00287 |-00287 |-00292 |-00308 |-00325 |-00444 00617 (00895 ‘01660 
| 











TABLE C.—Resistance of LiCl Solutions. 

LiCl Solutions. 
Temp. : eT hae a 1 Baws) 
Ie Tp aM 4, 5. 6. ia 8. 

| 
| 




0°C.| 370500 | 25870) 5974 | 33860 | 1552 |1291 |1398 | 2240 
10 275200 | 19460| 4513 | 2568 {1186 | 995 |1070 | 1652 
18 227300 | 16050 | 3740 | 2131 | 990 | 830 | 891 | 1836 
20 217700 | 15350, 3588 | 2083 | 949 | 796°9| 853:4| 1274 
30 177200 | 12520) 2931 |1661 | 781-1} 655°8| 699°5| 1006 
147600 | 10590 | 2462 |1402 | 659-0) 552°7| 585:2| 819 
126100 | 8985) 2112 |1205 | 568-1) 4769; 500°3| 680 
| 60 109200 | 7810} 1840 | 1052 | 496°5) 417-5} 43848) 578 
96500 | 6910) 1629 | 931:3) 441°5) 369-4) 3840} 500 
80 86040 | 6190] 1460 | 836°6} 396°9) 331°3| 342°3| 436 
| 90 77980 | 5585| 13823 | 759 | 360 | 3015) 3089; 386 
100 71080 | 5080; 1210 | 693 | 3830 | 278-0} 2815] 348 

Ove 
eS 

x1 
=) 








| 

Knowing the molecular concentrations of our solutions at 
any one temperature, say 18° C., we can calculate them for 
the other temperatures from the alteration in the density as 
we heat or cool the solutions. 
Professor Kohlrausch kindly supplied me with the figures 
connecting the density of lithium chloride solutions at 
18° C. (18/4) with the concentration; and these were used 
in determining the concentration of my solutions at 18° C., 
and, by means of Table A, the concentration at the other 
temperatures as well. These concentrations, In gramme- 
equivalents per litre, are given in Table D. 
Table E gives the fluidity values obtained by inverting the 
values in Table B; and Table F,, by using the values for R in 
Table C, and for n in Table D, gives the values for the 
