1863.] 371 



Table D. 

 Zonal non-polar edges : 



(55)* 17=1, (44), 37=6 3 (33)* 57=8, Z={3,1,0 2 }; 



(55)* 17= 1, (44)37= 1, Z= {3, 5, 0, &} ; 



(55)* i7=i, (44)* 37 = 9, (33)* 57=13, Z={3,3,0 2 ,0 2 }; 



(55),17=1, (44)* 37=8, (33)* 57=6, Z={3,3,0,0} ; 



(44)* 37=4, (33)* 57=6, Z= {5, 1, 4 } ; 



7-2, z={5,3,0 3 ,0}. 



(64)^27=6, (43)^47=11, (63)^27 = 6, Z={3,3,0 2 ,0 2 }; 



(53)e P 37=10, (33)^57 = 5, Z={3,a0 2 ,0 2 }; 



(56)^07=2, (54)^7=4, (63)-p27=4,i 

 (83) V 07=1, (74)^07=1, (43)^47=3 J 

 (43) ej ,47=4, (33)^57=2, Z={3,5,0,03} ; 



(33) ejP 57=2, Z={5,3,0 3 ,0} ; 



(44) ep 37=5, 



Asymmetric edges : 



(73)0,17= 15, (74)a,07 = 2, (63)o,27= 158 ; 

 (64)o*l7=54, (65)a*07 = 5, (55)aJ7 = 38 ; 

 (54),27=339, (53)o,37 = 719, (44)*37=487; 

 = 1532, (33)o,57=808. 



Registration of the Q-edra \\-acra. 

 Table A. 



1. Four 2-zoned monaxine heteroids, with gonogrammic axes 

 carrying tessaraces, with the zones first read below in Table D. 



2. One 2-ple zoneless monaxine heteroid, with gonogrammic axis 

 carrying a tessarace. 



3. Twelve monozones, of which 



4 have the zone Z={3, 4, 0, O 2 }, ' 

 2 have the zone Z = {3, 4, O 2 , O 3 }, 

 2 have the zone Z = {3, 2, O 2 , 0}, 

 1 has the zone Z={3, 2, 0}, 



1 has the zone Z={5, 2, O 3 }, 



2 have the zone Z = {1, 4, O 3 }. 



4. Twenty-one asymmetric 8-edra 11-acra. 



