Classical Ideal Gas
... The purpose of this note is to remind one how to calculate the entropy S and chemical potential µ of a classical ideal gas. First consider a monatomic ideal gas consisting of N identical atoms of mass m each having ν = 3 translational degrees of freedom and obeying the ideal gas ...
... The purpose of this note is to remind one how to calculate the entropy S and chemical potential µ of a classical ideal gas. First consider a monatomic ideal gas consisting of N identical atoms of mass m each having ν = 3 translational degrees of freedom and obeying the ideal gas ...
11-2 Vector Cross Product
... 11-3 Angular Momentum of a Particle Conceptual Example 11-7: A particle’s angular momentum. What is the angular momentum of a particle of mass m moving with speed v in a circle of radius r in a counterclockwise direction? ...
... 11-3 Angular Momentum of a Particle Conceptual Example 11-7: A particle’s angular momentum. What is the angular momentum of a particle of mass m moving with speed v in a circle of radius r in a counterclockwise direction? ...
Lecture 4
... Alice and Bob receive particles prepared by Charlie This means: There is shared classical information, which determines the value for all measurements performed by Alice and Bob Remark: given a realistic theory with hidden parameters such a list exists For the rest of the protocol/game Alice a ...
... Alice and Bob receive particles prepared by Charlie This means: There is shared classical information, which determines the value for all measurements performed by Alice and Bob Remark: given a realistic theory with hidden parameters such a list exists For the rest of the protocol/game Alice a ...
Quantum Transport and its Classical Limit
... • |Smj;nk|2 describes what fraction of the flux of electrons entering in lead k, channel n, leaves sample through lead j, channel m. • Probability that an electron entering in lead k, channel n, leaves sample through lead j, channel m is |Smj;nk|2 vnk/vmj. ...
... • |Smj;nk|2 describes what fraction of the flux of electrons entering in lead k, channel n, leaves sample through lead j, channel m. • Probability that an electron entering in lead k, channel n, leaves sample through lead j, channel m is |Smj;nk|2 vnk/vmj. ...
Potential Step: Griffiths Problem 2.33 Prelude: Note that the time
... Prelude: Note that the time-independent Schrödinger equation in one dimension can be written as d2 ψ 2m = − 2 ( E − V (x) ) ψ(x) . ...
... Prelude: Note that the time-independent Schrödinger equation in one dimension can be written as d2 ψ 2m = − 2 ( E − V (x) ) ψ(x) . ...
Chapter 2 (Lecture 2-3) Old Quantum Theory The Postulates of Bohr
... Let us consider a particle of mass m in a box in the shape of a rectangular parallelepiped with edges a, b, and c, the particle being under the influence of no forces except during collision with the walls of the box, from which it rebounds elastically. The linear momenta will then be constants of t ...
... Let us consider a particle of mass m in a box in the shape of a rectangular parallelepiped with edges a, b, and c, the particle being under the influence of no forces except during collision with the walls of the box, from which it rebounds elastically. The linear momenta will then be constants of t ...
Entanglement and Bell theorem
... • A source must emit pairs of discrete-state systems, which can be detected with high efficiency. • QM must predict strong correlations of the relevant observables of each pair, and the pairs must have high QM purity. • Analyzers must have extremely high fidelity to allow transmittance of desired st ...
... • A source must emit pairs of discrete-state systems, which can be detected with high efficiency. • QM must predict strong correlations of the relevant observables of each pair, and the pairs must have high QM purity. • Analyzers must have extremely high fidelity to allow transmittance of desired st ...
Some Aspects of Islamic Cosmology and the current state of
... (physical reality) is simply a construction of the mind. Given that all our knowledge is in fact a creation of the mind (imagination) it has been difficult to refute this - to get from our ideas of things to the real thing in itself . Realism: Atomism is an example of near realism. Mathematical real ...
... (physical reality) is simply a construction of the mind. Given that all our knowledge is in fact a creation of the mind (imagination) it has been difficult to refute this - to get from our ideas of things to the real thing in itself . Realism: Atomism is an example of near realism. Mathematical real ...
