尽管所有的制度都是由乐团同类粒子同一种互动,在同样的外部条件下,颗粒分布在不同的价值观~microstate微观能量!将因制度不同而异.然而,根据统计力学系统的大部分乐团将在同一国家平衡macrostate~!
这意味着将有一个最可能分布颗粒,其范围将涉及宏观状态.即使是相同的互动、分配方式将取决于机械给予治疗,是传统或量子粒子.申请条件是建立一个或另一个不确定原则通过Heinsenberg(H与H正在2PDQDP>业的!
,制约着位置的准确性(部门)、动力(下午),同时可以归咎于一种粒子,或精力和时间计量.
比较多的微粒、N、能源与多国«一 可他们将导致使用标准量子力学或古典.
因此,如果一些国家非常大的能量,可以看作是持续和古典力学可以接受.
作法是把相当于平均距离(V/N)1/3,粒子之间的大规模米,载量的温度t和v,De与相关函数的波长(A2MKT,K是关心的不断!
因此,量子力学需要在波长大于平均距离,由于位置不够好势头,在这种情况下决定.
量子机械 要注意说明所谓现行预算的支出,因为它排除原则>将限定在某个粒子的状态.
如果只占领的话,造成的分配将是墨索里尼--Dirac;
否则,百色-爱因斯坦分布将职业介绍的可分配states.6都分布有关心的渐进限制 传统治疗所造成的粒子,不限制人数占领.
科技英语翻译3
科技英语翻译3
Although all systems in the ensemble are composed of
the same type of particles with the same kind of interactions,
under the same external conditions, the distribution of particles
among the different values of microscopic energies
~microstate! will differ from system to system. Nevertheless,
according to statistical mechanics the majority of the systems
in the ensemble will be in the same equilibrium state ~macrostate!,
which implies that there will be a most probable
distribution of particles, whose parameters will be associated
with the macroscopic state. Even though the interaction is
the same, the form of the distribution will be determined by
whether the mechanical treatment given to the particles is
classical or quantum. The conditions to apply for one or the
other are established through the Heinsenberg uncertainty
principle (2pDqDp>h with h being Planck’s constant!,
which restricts the accuracy with which position, (Dq), and
momentum, (Dp), can be simultaneously ascribed to a particle,
or energy and time of measurement.
A comparison of the number of particles, N, with the
number of energy states, «i , available to them will lead to a
criterion for the use of quantum or classical mechanics.
Thus, if the number of states is very large then the energy
may be regarded as continuous and classical mechanics will
be acceptable. An equivalent approach4 is to compare the
average distance, (V/N)1/3, among particles of mass m, contained
in a volume V and at temperature T, with the associated
de Broglie’s wavelength (A2mkT, k being Boltzmann’s
constant! so that quantum mechanics is required when the
wavelength is larger than the average distance, since momentum
and position are not well determined under this condition.
Quantum mechanically, care should be taken to account
for the so-called Pauli exclusion principle,5 since it will limit
the number of particles in a given state. If the occupation
number is restricted, then the resulting distribution will be
that of Fermi–Dirac; otherwise, the Bose–Einstein distribution
will describe the occupation of the accessible states.6
Both distributions have the Boltzmann distribution as the
asymptotic limit, which results from the classical treatment
of the particles and does not restrict the occupation number.
Although all systems in the ensemble are composed of
the same type of particles with the same kind of interactions,
under the same external conditions, the distribution of particles
among the different values of microscopic energies
~microstate! will differ from system to system. Nevertheless,
according to statistical mechanics the majority of the systems
in the ensemble will be in the same equilibrium state ~macrostate!,
which implies that there will be a most probable
distribution of particles, whose parameters will be associated
with the macroscopic state. Even though the interaction is
the same, the form of the distribution will be determined by
whether the mechanical treatment given to the particles is
classical or quantum. The conditions to apply for one or the
other are established through the Heinsenberg uncertainty
principle (2pDqDp>h with h being Planck’s constant!,
which restricts the accuracy with which position, (Dq), and
momentum, (Dp), can be simultaneously ascribed to a particle,
or energy and time of measurement.
A comparison of the number of particles, N, with the
number of energy states, «i , available to them will lead to a
criterion for the use of quantum or classical mechanics.
Thus, if the number of states is very large then the energy
may be regarded as continuous and classical mechanics will
be acceptable. An equivalent approach4 is to compare the
average distance, (V/N)1/3, among particles of mass m, contained
in a volume V and at temperature T, with the associated
de Broglie’s wavelength (A2mkT, k being Boltzmann’s
constant! so that quantum mechanics is required when the
wavelength is larger than the average distance, since momentum
and position are not well determined under this condition.
Quantum mechanically, care should be taken to account
for the so-called Pauli exclusion principle,5 since it will limit
the number of particles in a given state. If the occupation
number is restricted, then the resulting distribution will be
that of Fermi–Dirac; otherwise, the Bose–Einstein distribution
will describe the occupation of the accessible states.6
Both distributions have the Boltzmann distribution as the
asymptotic limit, which results from the classical treatment
of the particles and does not restrict the occupation number.
英语人气:509 ℃时间:2020-01-04 03:56:23
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