Basic concepts: amount of substance was Avogadro, molar mass, the mean square velocity of thermal m

External evaluation of the Programme in Physics awarded on the basis of existing curricula for secondary xsplit zakladivz physics for grades xsplit 7-9 (K .; Irpen: Perun, 2005, approved MES: letter dated 23.12.2004 1 / 11-6611) and for 10 -11 classes (K., 2010, approved by MES: Order dated 28.10.2010 1021).
Material external evaluation of the program in physics is divided into five thematic sections: "Mechanics", "Molecular physics and thermodynamics", "Electrodynamics", "Waves. Optics "," Elements of the theory of relativity. Quantum Physics ", which, in turn, is divided into sections and topics.
establish a connection between the phenomena of the world based on knowledge of the laws of physics and fundamental physics experiments; apply the basic laws, rules, concepts and principles taught in the physics course secondary school; identify common features and significant differences in the content of the physical phenomena and processes, the scope of application xsplit of physical xsplit laws; use theoretical knowledge for solving various types (qualitative, computational, graphic, experimental, combined, etc.); Develop a plan of action to implement the practical experiment using gauges, equipment, process xsplit research results xsplit to draw conclusions about the results; explain the principle of operation xsplit of simple devices, machinery and instrumentation from a physical point of view; analyze the graph of the physical quantity to judge; correctly identify and use physical units.
Elastic force. Hooke's law.
Concepts: Mechanical movement, frame of reference xsplit material point, trajectory, coordinate movement, path, speed, acceleration, momentum, inertia, mass, force, weight, torque, pressure, impulse, mechanical work, power, efficiency, kinetic and potential energy, time and frequency.
Laws and principles: the laws of kinematics; laws of Newtonian xsplit dynamics; laws of conservation of momentum and energy, gravity, Hooke, Pascal, Archimedes; conditions of equilibrium and swimming bodies; principles: Galilean relativity.
Practical application of the theory: xsplit solving the basic problems of the mechanics, the motion of bodies under the action of one or more forces; free fall; traffic, shells, planets, artificial satellites; equilibrium of bodies, the efficiency of simple mechanisms, transmission fluid pressure and gases, swimming bodies, application of the law of conservation of energy for the flow of liquids and gases;
Mr ryntsyp actions instrumentation and industrial equipment: scales, load cell, strobe, xsplit barometer, pressure gauge, ball bearing, pump, lever, communicating vessels, blocks, inclined plane, electricity, gateway, hydraulic press, pumps
recognize signs of mechanical phenomena and processes in nature xsplit and their practical application in engineering, particularly relativity of motion, different types of movement, interaction of bodies, inertia, use machinery, equilibrium conditions, the conversion of mechanical energy of one kind to another and so on;
computational problems using functional relationships between the main physical quantities of: uniform xsplit and uniformly accelerated rectilinear motion; relative motion; uniform motion in a circle; motion of bodies under the action of one or more forces, the movement related bodies; conditions of equilibrium and swimming bodies; universal gravitation; Newton's Laws, Hooke, Pascal, Archimedes; conservation of momentum and energy;
Basics of the molecular-kinetic theory. The main provisions of the molecular-kinetic theory and their experimental study. Weight and size of molecules. Avogadro Constant. xsplit Rms velocity xsplit of thermal motion of molecules.
Fundamentals xsplit of thermodynamics. Thermal motion. The internal energy and how it changes. The amount of heat. The specific heat of a substance. Work in thermodynamics. The law of conservation of energy in thermal processes (the first law of thermodynamics). Application of the first law of thermodynamics to izoprotsesiv. Adiabatic process. xsplit
Properties of gases, liquids and solids. Vaporization (evaporation and boiling). Condensation. Specific heat of vaporization. Saturated and unsaturated couple and their properties. Relative humidity and its measurement.
Phenomena and processes: Brownian motion, diffusion, gas compression, gas pressure, the processes of heat transfer (heat conduction, convection, radiation), the establishment of thermal equilibrium, irreversible thermal phenomena, aggregate transformation of matter, deformation of solids, wetting, capillary effects and more.
Basic concepts: amount of substance was Avogadro, molar mass, the mean square velocity of thermal motion of molecules, temperature, pressure, xsplit volume, concentration, density, heat, work, internal energy, the amount of heat adiabatic process izoprotsesy, specific heat of a substance latent heat of fusion, latent heat of vaporization, specific heat of combustion, surface energy, surface tension force, surface tension, and saturated nenasych