[31] 



Elektrische Leitfähigkeit des Bergkristalles. 



207 















Ausgleichnng 

 Wm her. i V 



Ko. 



Zeit 



Temp. 



E 



l Tm 



^Ym 





h m 







Volt 



See '/i 



ß 



10-. ö 1 % 







>'r. 7. Platte 20. 19. Vm. 1910. fo 



= 421°.5. »0 = 694''.5. 



1 



9 9 



il9.9 



0.1470 



0.3582 



10186 











3 



2 6 



i20.6 



0.0396 



0.3399 



10039 



— 



— 







2 11 



121.2 



0.0390 



0.2977 



9570 



— 



— 



7 



2 15 



421.6 



0.1758 



0.2971 



9389 



— 



— 



9 



2 20 



421.8 



0.2957 



0.2743 



9087 



— 



— 



11 



2 2i 



421.9 



0.1361 



0.2735 



9150 



— 



— 



13 



2 28 



422.0 



0.0348 



0.2757 



9268 



. — 



— 



15 



2 33 



422.4 



0.0337 



0.2489 



9093 





— 



17 



2 37 



422.4 



0.2941 



0.2512 



8978 



— 









Xr. S. Platte 20. 19. "V 



111.1910. f„ 



= 466''.0. * 



= 739''.0. 





1 



3 15 



465.2 



0.0856 



0.3382 



4733 











3 



3 21 



465.6 



0.0856 



0.2852 



4562 



— 







5 



3 25 



465.6 



0.1514 



0.2876 



4504 



— 







7 



3 30 



465.8 



0.1513 



0.2655 



4416 



— 







9 



3 34 



466.1 



0.0847 



0.2645 



4485 



— 







11 



3 38 



466.3 



0.0484 



0.2641 



4527 



— 







13 



3 42 



466.5 



0.3139 



0.2653 



4438 



— 







15 



3 50 



466.7 



0.3139 



0.2308 



4241 



— 







17 



3 54 



466.9 



0.1449 



0.2357 



4282 



— 







19 



3 58 



466.9 



0.0212 



0.2418 



4445 



— 











>'r. 9. Platte 20. 19. V 



111.1910. fo 



105 o ■ 

 = 315''.0. -9- 



= 588'.0. 





1 



4 48 



314.1 



0.1724 



0.2943 



0.9546 



0.9486 



+ 0.6 



3 



4 47 



314.1 



0.2871 



0.2936 



0.9371 



0.9467 



-1.0 



5 



4 51 



314.5 



0.2873 



0.2476 



0.8445 



0.8328 



+ 1.4 



7 



4 55 



315.4 



1.420 



0.2463 



0.8211 



0.8300 



-1.1 







>'r. 10. Platte 19. 23. 



vm. 1910. t 



= 239».0. , 



9-0 = 512" .0. 





2 



2 8 



237.8 



2.929 



0.7470 



31.30 



31.48 



-0.5 



3 



2 12 



238.5 



1.234 



0.7294 



31.42 



31.36 



+ 0.2 



5 



2 18 



239.2 



1.235 



0.4863 



29.74 



29.62 



+ 0.5 



7 



9 99 



239.0 



2.956 



0.4847 



29.71 



29.61 



+ 0.4 



9 



2 27 



239.1 



2.956 



0.3973 



29.04 



28.97 



+ 0.2 



11 



2 31 



239.4 



1.234 



0.3975 



29.11 



28.97 



+ 0.5 



13 



2 39 



239.2 



1.232 



0.4055 



29.04 



29.03 



0.0 



15 



2 43 



239.3 



2.927 



0.3973 



28.90 



28.98 



-0.2 



17 



2 48 



239.1 



1.234 



0.3534 



28.58 



28.66 



-0.8 



19 



2 52 



239.3 



2.939 



0.3493 



28.58 



28.63 



-0.2 



21 



2 56 



239.4 



9.87 



0.3461 



28.59 



28.62 



0.0 



23 



3 4 



239.9 



9.88 



0.2578 



27.79 



27.97 



-0.7 



24 



3 10 



238.3 



2.927 



0.2627 



25.83 



asm 



-S.O 



26 



3 15 



238.2 



2.928 



0.2219 



25.93 



27.74 



-6.4 



28 



3 19 



239.5 



0.910 



0.2267 



25.92 



37.78 



-6.6 







>"r. 11. Platte 19. 23. "^ 



TU. 1910. to 



= 290».0. 9 



= 563<'.0. 





1 



3 45 



290.6 



1.349 



0.2470 



3.862 



4.035 



-3.8 



3 



3 52 



290.3 



1.348 



0.2470 



3.897 



4.035 



-3.8 



5 



3 56 



290.7 



0.4149 



0.2732 



4.138 



4.081 



+ 1.4 



7 



4 1 



290.5 



0.4108 



0.3082 



4.185 



4.144 



+ 1.0 



9 



4 5 



290.4 



2.957 



0.3103 



4.184 



4.147 



+ 0.9 



11 



4 10 



290.2 



1.080 



0.3922 



4.345 



4.293 



+ 1.2 



18 



4 20 



289.6 



1.076 



0..5567 



4.594 



4.584 



+ 0.2 



15 



4 24 



289.5 



2.926 



0.5603 



4.544 



4.591 



-1.0 



17 



4 28 



2S9.3 



0.4266 



0.5440 



4.556 



4.562 



-0.1 



