Single component and binary mixtures of BECs in double
... between the mean-field/semiclassics results and the full quantum behavior •Correspondingly, the cloud is far from condensed as time evolves ...
... between the mean-field/semiclassics results and the full quantum behavior •Correspondingly, the cloud is far from condensed as time evolves ...
U6B _13-14
... Titrating a strong acid with a strong base pH is always = 7 The titration curve graph shows the pH of the equivalence point. Take the vertical region and cut the length in half and then look to what pH value aligns to that point. ...
... Titrating a strong acid with a strong base pH is always = 7 The titration curve graph shows the pH of the equivalence point. Take the vertical region and cut the length in half and then look to what pH value aligns to that point. ...
Temporal interferences driven by a single-cycle terahertz pulse in the... dynamics of negative ions
... is similar, and the theoretical methods developed here can be extended by including the long-range Coulomb potential. As illustrated in Fig. 1 for a weak single-cycle pulse, there are two trajectories contributing to each time tf when the electron arrives at the detector. One is generated earlier in ...
... is similar, and the theoretical methods developed here can be extended by including the long-range Coulomb potential. As illustrated in Fig. 1 for a weak single-cycle pulse, there are two trajectories contributing to each time tf when the electron arrives at the detector. One is generated earlier in ...
Definitions and Statements OCR A AS
... define and use the terms displacement, amplitude, wavelength, period, phase difference, frequency and speed of a wave; state typical values for the wavelengths of the different regions of the electromagnetic spectrum from radio waves to γ-rays; state that all electromagnetic waves travel at the same ...
... define and use the terms displacement, amplitude, wavelength, period, phase difference, frequency and speed of a wave; state typical values for the wavelengths of the different regions of the electromagnetic spectrum from radio waves to γ-rays; state that all electromagnetic waves travel at the same ...
Classical and Non-Classical Representations in Physics
... the domain of experience (i.e. the possible observations and their relations) in such a way that the resulting system is as simple, precise, and reliable as possible. Since a representation is necessarily less complex than what it is to represent (the whole actual and potential domain of experience) ...
... the domain of experience (i.e. the possible observations and their relations) in such a way that the resulting system is as simple, precise, and reliable as possible. Since a representation is necessarily less complex than what it is to represent (the whole actual and potential domain of experience) ...
The measure of existence of a quantum world and the Sleeping
... of the coin might matter (he distinguished between a ‘random’ coin and a ‘mathematical’ coin, see §7) and since a particular (quantum) implementation of the fair coin is crucial for our analysis, we have to justify Vaidman's move. There is no place for a random variable in classical physics: knowing ...
... of the coin might matter (he distinguished between a ‘random’ coin and a ‘mathematical’ coin, see §7) and since a particular (quantum) implementation of the fair coin is crucial for our analysis, we have to justify Vaidman's move. There is no place for a random variable in classical physics: knowing ...
Gibbs paradox of entropy of mixing: Experimental facts, its rejection, and the theoretical consequences
... Kekule structures of benzene, is the most prominent one. Resonance means the time average of several states used to represent a system [29]. The resonance principle has been skilfully used by Pauling (p. 12 of [28]) who attributed the resonance principle to Heisenberg [29]. In quantum mechanics, we ...
... Kekule structures of benzene, is the most prominent one. Resonance means the time average of several states used to represent a system [29]. The resonance principle has been skilfully used by Pauling (p. 12 of [28]) who attributed the resonance principle to Heisenberg [29]. In quantum mechanics, we ...
