361 



[1915-19-] 



Crust movements, coral reefs &. — 



Andrews, E. C, 7. 

 Crust, of the Earth. — See Earth's 



Crust. 



Crustacea, Cretaceous. — Etheridge, 



R., fil., 6. 

 , Palaeozoic, bibliography. — 



Vogdes, A. W., 

 Cruziana. — Sampelayo, P. H., 1. 

 Cryolite, Greenland. — Bernard, C. P. 

 , production of. — Burchard, E. 



F. , 4. 



Cryphceus. — Kegel, W. 

 Cryphalites. — Cockerell, T. D. A., 

 16. 



Cryptcenia. — Onetti, A. 

 Cryptagriotes. — Wickham, H. F., 1. 

 Cryptoconus. — Cossmann, M., 1. 

 Cryptograptus. — Hadding, A., 2; 



Jehii, T. J., 3. 

 Cryptohypnus. — Wickham, H. F., 1. 

 Cryptomya. — Nomland, J. O., 5. 

 Cryptonella. — Kegel, W. 

 Cryptophragmus. — Raymond, P. E., 



2. 



Cryptophyllum. — Carruthers, R. G., 

 4. 



Cryptorhynchia. — Buckman, S. S., 4. 

 Cryptozodn. — Howchin, W., 1 ; Wal- 



cott, C. D., 2; Wieland, G. R., 2. 

 Crystal aggregates, of native arsenic. 



— Ichikawa, S., 2. 

 faces, index numbers of. — 



Panebianco, R., 2. 



forces. — Wright, F. E., 8. 



optics, solution of problems in. 



—Warren, C. H., 1. 

 structure, X-rays &. — Friedel, 



G. , 1 & 3; Panebianco, R., 1; 

 Quensel, P., 1. 



surfaces, exhalations from. — 



Knudsen, M. 

 Crystalline cylinders, stress-strain 



relations in.- — Bridgman, P. W., 2. 

 rocks, Belgian Congo. — Ledoux, 



A., 2. 



, Calabria. — Chelussi, I. 



, Dent de Morcles.— Hart- 



mann, P. 



, Lappland. — Quensel, P., 



3-5. 



, Liguria. — Preller, C. S. 



du R. 10 & 11 ; Termier, P., 12. 

 , Monte Colmine. — Lincio, 



G., 1. 



r , Piedmont. — Preller, C. S. 



du R., 7 & 8. 

 , Portugal. — Souza-Bran- 



dao,. V., 7. 

 , Sweden. — Backlund, H., 



6; Gavelin, A., 4 & 5 ; Holmquist, 



P. J., 6. 



— , Switzerland. — Lugeon, M., 



schists, of Alps. — Bonney, T. G., 



8. 



, Terra del Fuego. — Mil- 



losevich, F., 2. 



Crystalline schists, origin of.— Meu 



nier, S., 4 & 8. 

 Crystallisation, development of cellu 



lar structure during. — Dauzere, G, 



1. 



, rate of. — Padoa, M. 



, in silicate liquids. — Bowen, N. 



L., 1. 



■ — — , of sulphide ores. — Carstens, 

 C. W., 1. 



Crystallographic axes. — Panebianco, 



H; Panebianco, R., 4. 



■ formulae. — Panebianco, R., 5. 



intergrowths. — Goodchild,W. H., 



1 ; Ray, J. C. ; Segall, J. 

 relations, law of va lency - 



volumes &. — Barlow, W. 

 Crystallography. — Beale, Sir W. P. ; 



Liebisch, T. ; Tutton, A. E. H., 



1& 2; Viola, C, 1 & 4; Woyno, 



T. J. 



— ■ — , numerical data in. — Spencer, 

 L. J., 1. 



, projection methods in.- — Hilton, 



H., 1 & 2. 

 Crystals, axes of symmetry in. — 



Cesaro, G., 4; Evans, J. W., 10. 

 , biaxial, optical constants of. — 



Weber, L., 1 & 2. 

 , calculation of. — Smith, G. F. 



H. , 3. 



, cavities in. — Bridgman, P. W., 



, cleavage angle in.- — Hilton, H., 



3. 



, compound. — Aminoff, G., 4; 



Viola, C, 5 & 7 ; Zambonini, F., 3. 

 ■ , delineation of. — Blake, J. M., 



2-5. 



, diffraction of X-rays by. — 



Friedel, G., 3. 

 , growth of. — Blake, J. M., 1; 



Friedel, G., 2; Gaubert, P., 2; 



Taber, S., 1 & 4; Winter, J. G. ; 



Wright, F. E., 14. 



, of ice.— Dobrowolski, A. B. 



, laws of formation. — Viola, C, 



6 & 9. 



, linear force of growing. — 



Becker, G. F., 4. 



— - — , minute, measurement of re- 

 fractive indices in. — Wright, F. E., 

 4. 



, of mixed metallic oxides. — 



Hedvall, J. A. 

 , orientation of anisotropic 



liquids on. — Grandjean, F., 1-3. 

 • , structure of. — Bragu\ \Y. H., 



1-5; Crehore, A. C, 1 & 2; 



Johnsen, A.; Niggli, P., 2; Ogg, 



A.; Vegard, L., 1 & 2. 

 , twin. — Evans, J. W., 7; Viola, 



C, 8. 



Ctenacanthus. — Branson, E. B., 3; 

 Eastman, C. R., 2; Tolmatcheff, 



I. P. 



Ctenis. — Moeller, H. 

 Ctcnobolbina. — Williams, H. S., 2. 



