The composition and characteristics of the nucleus. Lasers - principles of work and their application. Wave-particle duality properties of the particles of matter.
Lecture №6 Elements of quantum mechanics. Thomson's and Rutherford's model of the atom. Lecture №3 Internal photoelectric effect. Laws of the external photoelectric effect. Elementary classical theory of electrical conductivity of metals. 
Lecture №8 Dependence of the resistance of the conductor of temperature. The connection between the field strength at the surface of the conductor and the surface charge density. The charge distribution in the conductor. Lecture №6 Conductors in electrostatic field. 
Theorem Gauss for the electrostatic field in the dielectric.
Lecture №5 The electric field in the dielectric. The calculation of the potential difference plane, two planes, cylinders, spheres, ball. The link between the strength and potential. Lecture №4 The work force of the electrostatic field while moving charge. 
Gauss's theorem and its application to the calculation of the electrostatic field.
Lecture №3 Flux of a vector of tension. The principle of superposition of fields. The law of conservation of angular momentum. The dynamic equation of rotational motion. Lecture №8 Dynamics of rotational motion. 
Lecture №7 The law of conservation of total mechanical energy for conservative and dissipative systems.The work force of gravity, the elastic force. Lecture №6 Work and mechanical energy.Lecture №3 Dynamics of translational motion.Tangential and normal components of acceleration. Lecture №1 The physical principles of mechanics.
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