TY - BOOK AU - Yavorsky,B. TI - Handbook of Physics U1 - 530 22 PY - 1977/// CY - Moscow PB - Mir Publishers KW - Physics N1 - CONTENT Part One The Physical basis of classical Mechanics Chapter 1 Kinetics of particles and rigid bodies 1.1 Introductory concepts 1.2 Velocity 1.3 Acceleration etc. Chapter 2 Dynamics of translatory Motion 2.1 Newton's first law of motion 2.2 Force 2.3 Mass 2.4 Newton's second law of Motion etc. Chapter 3 Work and Mechanical energy 3.1 Energy 3.2 Work 3.3 Power 3.4 Force function etc Chapter 4 Dynamics of rotary Motion 4.1 Moment of force 4.2 Moment of Inertia 4.3 Angular momentum 4.4 The fundamental law in the dynamix of lotary Motion etc. Chapter 5 Fundamentals of analytical Mechanics 5.1 Principle concepts and definitions 5.2 Lagrange's equations of motion 5.3 Hamilton's function . canonical equations of motion 5.4 Concept of the variational principles of mechanics etc. Chapter 6 Mechanical vibrations 6.1 Fundamental concepts 6.2 Small oscillations of a system with one degree of freedom 6.3 Small oscillations of a system with several degrees of freedom 6.4 oscillations of a nonlinear system with one degree offreedom etc. Part Two The fundamentals of thermodynamics and molecular physics Chapter 7 Introduction 7.1 Basic concepts Chapter 8 Ideal Gas Laws 8.1 Ideal Gases 8.2 Mixture of ideal Gases Chapter 9 First law of Thermodynamics 9.1 Internal energy and enthalpy 9.2 Work and Heat 9.3 Heat capacity 9.4 The first law of Thermodynamics etc. Chapter 10 Second and third laws of Thermodynamics 10.1 Reversible and irreversible processes 10.2 Cycles, The carnot cycle 10.3 The second law of Thermodynamics 10.4 Entropy etc. Chapter 11 Kinetic theory of Gases 11.1 Basic equation of the kinetic theory of Gases 11.2 Maxwell's velocity distribuion law 11.3 Mean free path of Molecules 11.4 Transport phenomena in Gases etc. Chapter 12 Elements of statistical physics 12.1 Introduction 12.2 The probability of the state of a system. Average values of physical qualities 12.3 Gibb's distribution 12.4 Principle of the equipartition law etc. Chapter 13 Real Gases and Vapours 13.1 Equations of state of real Gases 13.2 Intermolecular forces in Gases 13.3 Throtting of Gases. The joule-thomson effect 13.4 Isotherms of real Gases, vapours. Critical state of substances etc. Chapter 14 Liquids 14.1 General properties and structure of liquids 14.2 Properties of the surface layer of liquids 14.3 Wetting. capillary phenomena 14.4 Vaporization and boiling of Liquids etc. Chapter 15 Crystalline Solids 15.1 General properties and structure of solids 15.2 Thermol expansion of solids 15.3 Thermol conduction in solids 15.4 Heat capacity of solids etc. Chapter 16 Amorphous substances 16.1 General properties and structure of Amorphous substances 16.2 Viscoelastic properties of Amorphous substances etc. Part Three The Fundamentals of Fluid Mechanics Chapter 18 Fluid statics 18.1 Introduction 18.2 Fluid statics Chapter 19 Fluid Dynamics 19.1 Basic concepts 19.2 The ncontinuity equation 19.3 Equations of Motion for fluids 19.4 Energy nequations Part Four Electricity nand Magnetism Chapter 20 Electrostatics 20.1 Basic concepts. Coulomb's Law 20.2 Electric field. Electric field intensity 20.3 Electric displacement, ostrogradsky-Gauss electric Flux 20.4 Potential of an electrostatic field etc. Chapter 21 Direct electric current in Metals 21.1 Principal concepts and definitions 21.2 Electron theory of conduction 21.3 Direct currenr laws 21.4 Kirchhoff's Laws etc. Chapter 22 Elecric current inLiquids and Gases 22.1 Electrical conduction in Liquids. Electrolytic dissociation 22.2 Laws of electrolysis 22.3 Atomicity of electricity 22.4 Ohm's law for currents in Liquids etc. Chapter 23 Electric current in Semiconductors 23.1 Intrinsic conduction in Semiconductors 23.2 Extrinsic conduction inconduction in Semiconductors 23.3 The Hall effect in Metals and conduction in Semiconductors etc. Chapter 24 Junction, Thermoelectric and Emission effects 24.1 Junction effects in Metals, Volta,s Laws 24.2 Junction effects in Semiconductors 24.3 Thermoelectric effects in metals and Semiconductors 24.4 Emission effects in Metals etc. Chapter 25 Magnetic Field of Direct current 25.1 Magnetic field,Amperes Law 25.2 The Biot Savari-Laplace law 25.3 Simplest Magnetic fields set up by currents 25.4 Action of a Magnetic field on current- carrying conductors. Interaction of conductors etc. ER -