Chemistry and its importance. The mass and its properties. Chemical formulas and equations. Basic terms. Amount of substance. Composition systems. Solutions. Construction of an atom. Atomic nucleus. The arrangement of the electron package. Periodic table of elements.
Chemical bond. Properties of materials. Latent states of matter. Latent transition. The course of chemical reactions. Energy changes during the course of chemical reactions. Kinetics and equilibrium reactions.
Electrolyte solutions. Electrolytic dissociation. Ionic equation. Acids, alkalis and salts. Exponent pH. Electrochemical processes. Oxidation-reduction reactions. Voltage range of metals. Galvanic cells. Electrolysis.
Basic elements and their compounds. Hydrogen, oxygen, water and oxides. Significant non-metals - halogens, sulfur, nitrogen, phosphorus. Carbon. Coal, oil, natural gas. Silicon. Silicates. Technical silicate materials. Metals. Forms of occurrence processing. Technically important metal: s- block elements, p-block elements, d-block elements f-block elements.
Chemical bond. Properties of materials. Latent states of matter. Latent transition. The course of chemical reactions. Energy changes during the course of chemical reactions. Kinetics and equilibrium reactions.
Electrolyte solutions. Electrolytic dissociation. Ionic equation. Acids, alkalis and salts. Exponent pH. Electrochemical processes. Oxidation-reduction reactions. Voltage range of metals. Galvanic cells. Electrolysis.
Basic elements and their compounds. Hydrogen, oxygen, water and oxides. Significant non-metals - halogens, sulfur, nitrogen, phosphorus. Carbon. Coal, oil, natural gas. Silicon. Silicates. Technical silicate materials. Metals. Forms of occurrence processing. Technically important metal: s- block elements, p-block elements, d-block elements f-block elements.