Thermodynamics
... An important concept in thermodynamics is the thermodynamic system, a precisely defined region of the universe under study. Everything in the universe except the system is known as the surroundings. A system is separated from the remainder of the universe by a boundary which may be notional or not, b ...
... An important concept in thermodynamics is the thermodynamic system, a precisely defined region of the universe under study. Everything in the universe except the system is known as the surroundings. A system is separated from the remainder of the universe by a boundary which may be notional or not, b ...
notes on thermodynamic formalism
... is the temperature measured in degrees Kelvin. Notice that these constants do not depend on the kind of atoms in the gas; in particular, two different ideal monatomic gases at the same pressure, temperature and volume have the same number of atoms — even if the atoms in the two gases are of differen ...
... is the temperature measured in degrees Kelvin. Notice that these constants do not depend on the kind of atoms in the gas; in particular, two different ideal monatomic gases at the same pressure, temperature and volume have the same number of atoms — even if the atoms in the two gases are of differen ...
Temperature and Thermal Energy
... Temperature is a property of atoms themselves, and therefore, it does not depend on the number of atoms in an object. Temperature depends only on the average kinetic energy of the particles in the object. Consider two blocks of steel. The first block has a mass of 1 kg, and the second block has a ma ...
... Temperature is a property of atoms themselves, and therefore, it does not depend on the number of atoms in an object. Temperature depends only on the average kinetic energy of the particles in the object. Consider two blocks of steel. The first block has a mass of 1 kg, and the second block has a ma ...
Molecular dynamics investigation of heat conductivity in monocrystal
... shown that in the crystal with defects the heat conductivity process is described by the classical heat conductivity equation and the values of the coefficient β, characterizing the heat conductivity where obtained. It was shown that the heat conductivity increases with decreasing the number of defe ...
... shown that in the crystal with defects the heat conductivity process is described by the classical heat conductivity equation and the values of the coefficient β, characterizing the heat conductivity where obtained. It was shown that the heat conductivity increases with decreasing the number of defe ...
System stability
... Pressure, defined by (3), can only be positive for a real system at equilibrium, because the more volume a system has, the more quantum energy levels become accessible and thus the larger the entropy (the number of possible distributions), and pressure is that sensitivity; i.e., the increasing monot ...
... Pressure, defined by (3), can only be positive for a real system at equilibrium, because the more volume a system has, the more quantum energy levels become accessible and thus the larger the entropy (the number of possible distributions), and pressure is that sensitivity; i.e., the increasing monot ...