Papp Gábor: A magyar topografikus és leíró ásványtan története (Topographia Mineralogica Hungariae 7. Miskolc, 2002)
VI. ÚJ SZINTÉZISEK FELÉ? (az 1980-as évek közepe óta eltelt időszak)
Fig. 53. Lorándite, drawing in pencil from Krenner's manuscript (1894). Fig. 54. Twin lamellar feldspars from the Tolmács andésite as seen through the microscope width of the group 7 mm (drawing from a paper by József Szabó, 1879). Fig. 55. Szabóite (hypersthene) crystal from Arany* (drawing by Antal Koch, 1878). Fig. 56. Apatite crystal from Tavetsch, Switzerland (drawing by Sándor Schmidt, 1883). Fig. 57. Pyrite crystal from Bélabánya* (drawing by Ágoston Franzenau, 1898). Fig. 58. Chalcopyrite crystals from Botesbánya* (drawing by Béla Mauritz, 1918). Fig. 59. Illustrations (drawings of feldspar crystals) from a study by Antal Abt on feldspars from the mineral collection of the University of Budapest (1873). Fig. 60. A part of the list of the precious metal-free vein-filling minerals of Nagyág*, from Béla Inkey' s monograph Nagyág földtani és bányászati viszonyai [Geology and mining aspects of Nagyág] (1885). Fig. 61. Selection from the descriptions of the minerals found in Muszári* gold mines, from György Primics's A Csetráshegység geológiája és ércztelérei [Geology and ore veins of Csetrás Mountains] (1896). Fig. 62. Selection from the list of minerals of the Dobsina* ore deposit, from page 123 of Károly Papp' s A Magyar Birodalom vasérc- és kőszénkészlete [Iron ore and coal reserves of Hungary] (1915). Fig. 63. The entry on native arsenic from Mike Tóth's Magyarország ásványai [Minerals of Hungary] (1882). Fig. 64. Selection from Antal Koch's Erdély ásványainak kritikai átnézete [Critical review of the minerals of Transylvania] (1884-85). Fig. 65. The structure of cryolite (István Náray-Szabó and Kálmán Sasvári, 1938). Fig. 66. Altered pyrrhotite from Nagybörzsöny. Ore micrograph (Ferenc Papp, 1931). Fig. 67. Teaching of mineralogy after 1927 in secondary schools. The vertical axis represents the pupil's age, expressed in years, the numbers below the columns indicate the year of change in the educational system. Above the columns: HG: secondary school giving classical education, LG: secondary school for girls, RG: secondary school for modern languages, sciences and Latin, RI: secondary school for modern languages and sciences. Within the columns: G: secondary school, ÁI: primary school; the subject taught together with mineralogy: F: geology, K: petrology, T: natural history, V: chemistry. Numbers at the same place refer to the number of classes per week, with - if known - the approximate number of mineralogy classes in brackets. Comment: some mineralogy was taught in boys' and girls' primary schools as well. Fig. 68. The staff of the Institute of Mineralogy and Petrology, Pázmány Péter University of Budapest, with other colleagues on the Csódi Hill in 1928 (on the right-hand side of the picture Béla Mauritz, next to him Róbert Reichert, on the left-hand side of the picture Tibor Zeller). Fig. 69. Cerussite crystals from Szabadbattyán, drawing by Sándor Koch, from his paper published in the first issue of Acta Mineralogica-Petrographica (1943). Fig. 70. Fülöppite crystals from Nagybánya* (drawing by Sándor Koch, 1929). Fig. 71. Garnet crystal from Dognácska* (from a paper by Károly Zimányi, 1932). Fig. 72. Calcite crystal from Terézia Mine at Vaskő* (drawing by Mária Vendl, 1927).
