203 



Salzsanres Lupinin 

 Fig. 9. a =- CO Fx- (100) 

 s= ooP (110) 

 d = PöT- (101) 



p = - I X (111) 



o = P(^ (011). 



Salpetersaures 

 Fig. 11. o = P (111) 



a = ccFaD (100) 

 c = oP (001) 

 0' = 2P (221). 



(r h m b i s c li -h e m i e d r i s c h). 



Fig. 10. a = cc Po: (100) 

 h = x Fä$ (010) 

 8:^ ccP (110) 

 d = Pcc (101) 



V=-j>^ (111) 

 = P<x (011). 



Lupinin (tetragonal). 

 Fig. 12. = P (111) 



a = CO Porj (100) 

 c = oP (001) 

 0' = 2P (221) 

 s = ccP (110) 



p = Pcc (101). 



goldchlorid (tetragonal). 

 Fig. 14. ' 



Miller'sche Projection aller 

 beobachteten Flächen. 



Salz sau res Lupinin 

 Fig. 1.3. a = <K PoD (100) 

 s = coP (110) 

 g = « P2 (120) 

 r = oc P3 (130). 

 c = oP (001) 

 p = P (111). 



Aethyllupininammoniumjodid (hexagonal). 

 Fig. 15. c = oP (0001) Fig. 16. c = oP (0001) 



S = coP (lOlO) S = ooP (1010) 



q = 4P (404lj. q = 4P (4941) 



p = P (1011) 



n =. -%F (50o8) 

 m = '/,F (1014). 



Salzsaures Aetbyllupininammoniumplatinclilorid 



(rhombisch-hemie drisch). 



q = — — |-(5.3Ö.12). 



Fig. 17. s=r coP (HO) 



g = 00 P6 (160) 



p = + I ;c all) 



Fig. 18. s = <» P JllO) 

 g = 00 P6 (160) 



