| 1 | Mineral and rock identification. | [3] s.18-22, [4] s. 8-20, [24] s. 45-56, [21], [22], [23]. |
| 2 | Practical demonstration of the physical properties of minerals (crystal shape, cleavage, hardness, strength). | [2] s. 35-50, [7] s. 40-50, [3] s.87-93, [21], [22], [23]. |
| 3 | Practical demonstration of the physical properties of minerals (color, flash-extinction, Asterisk and line color). | [2] s. 51-59, [7] s. 50-63, [8] s. 193-197, [21], [22], [23]. |
| 4 | Electrical properties, magnetic properties, radioactivity will be shown in practice. | [2] s. 87-98, [6] s. 43-67. |
| 5 | Sample preparation, mineral separation, weighing, specific gravity determination, staining methods. | [2] s. 120-135, [8] s. 65-88. |
| 6 | Modal analysis. | [3] s. 55-72. |
| 7 | Phase relations in dual systems, solid solution and eutectic crystallization. Isomorphism, polymorphism and pseudomorfizm. | [5] s.87-101, [10] s. 88-120. |
| 8 | MID-TERM WEEK. Chemical and geochemical tests and the interpretation of these tests. | [8] s. 90-102, [24] s. 110-118. |
| 9 | Modal analysis application. | - |
| 10 | Stability of mineral and mineral reactions. | [10] s. 54-62. |
| 11 | Laboratory work. | - |
| 12 | Microscopic analysis (petrography, ore microscopy, electron microscopy). | [1] s. 98-103, [2] s.87-95, 125-131, [9] s. 75-130. |
| 13 | Laboratory work. | - |
| 14 | Macro-examination. | - |