Mineralogy 1300-OMNC1-GEP
Crystallography:
- definition of the crystals; their structure and properties, crystal morphology
- basic crystallography laws, crystal face indices, basic tetrahedron, cosinus formula
- stereographic projection
symmetry and the symmetry elements, crystallographic systems and the review of the 32 crystallographic classes
General mineralogy:
- definition of the mineral; genetic mineralogy, experimental mineralogy, technical mineralogy, biomineralogy
- properties of the minerals: colour and scratch, lustre, opalescence, pleochroism, birefringence, iridescence, alexandrite effect, cat’s eye effect, asterism, chatoyancy, cleavage and fracture, plasticity and flexibility, reactions with hydrochloric acid, magnetic properties, luminescence, density, radioactivity, thermic and electric properties, euhedral, subhedral and anhedral crystals, crystal habits, crystal growths, twinnings, epitaxy, pseudomorphs, paramorphs, mineral aggregates
- minerals in geospheres, environments of mineral formation: mantle, metamorphic, magmatic, (plutonic and volcanic), postmagmatic including pegmatitic, pneumatolytic and hydrothermal; hypergenic including evaporates, limnic, continental including rivers, swamps and deserts, karst processes
Systematic mineralogy:
- native elements
- carbides, nitrides, phosphides, silicides
- sulphides and related minerals
- halogenides
- oxides and hydroxides
- nitrates
- jodates
- borates
- chromates, molybdates, wolframates
- phosphates
- arsenates, vanadates
- silicates and alumosilicates: neso-, soro-, cyclo-, ino-, phyllo- and tectosilicates
- organic compounds
Crystal optics:
- light properties, light interference, light refraction, isotropy and anisotropy of the light properties of crystals
- construction and use of the polarisation microscope
- light refraction indices
- pleochroism
- light extinction angle
- interference colours, Michel-Levy plot
- refraction indice surfaces; indicatrix
- conoscopic images of the crystals in the oriented sections
- uniaxial vs biaxial crystals, optical sign of the crystals
- optic dispersion
- enantiomorphic crystals, change of the polarisation plane by crystals, Airy spirals
Type of course
Prerequisites (description)
Course coordinators
Learning outcomes
After the classes student should:
apply the basic crystallographic laws;
determine the symmetry elements, crystallographic system and classes, as well as crystal faces with their symbols;
make the stereographic projection of a crystal model with correct description;
recognize the macroscopic features of minerals;
identify macroscopically main, most important minerals;
identify basic optical features of crystals with use of the polarizing microscope.
Assessment criteria
Classes: short theoretical test written weekly at the beginning of each classes; practical skills are tested separately after each section: these include stereographic projections of several crystals, macroscopic determination of selected specimens of minerals, recognition and description of crystal features and properties under polarizing microscope.
Practical placement
none
Additional information
Additional information (registration calendar, class conductors, localization and schedules of classes), might be available in the USOSweb system: