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    Programs The most diversified PhD program-?

    Sorry, I don't know about US, since I'm from Denmark, where we don't have ph.d.-programmes as such. Here a ph.d. student is hired by a research-group to do a specific researchproject and choose their own courses, usually in the form of studygroups.
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    How do professional physicists think?

    Working with a variety of different physicists I've seen many approaches, as many as I've seen physicists I suppose. Some start from curiosity over a cool experiment, others spend hours and hours discussing the actual meaning of some equation, and then there are some who seem to rely on luck and...
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    Integral from 0 to ∞ with singularity at x=0

    Hmm. Is it possible that the latter of the three integrals is simply the gamma-function?
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    Integral from 0 to ∞ with singularity at x=0

    Yes, x is real. But since the integrand goes to zero for x\rightarrow \infty the direction of integration in the complex plane shouldn't alter the integral...
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    Programs The most diversified PhD program-?

    I think you would enjoy something like Lab-on-a-chip research, where you will need all your skills. But in general everything within nanoscience could be interesting for you. Good luck.
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    Integral from 0 to ∞ with singularity at x=0

    Here's an integral that is currently giving me grey hairs: \int_0^{\infty} \frac{1}{x} \exp(i \frac{k}{x}(a-c \cos(\theta + wx))) dx I've tried different approaches like contour integration around x=0 and replacing the exponential by its Taylor sum to have: \int_0^{\infty}...
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    How do neutrons gain energy from phonon scattering?

    Phonons are the vibrational modes of the crystal lattice. The mechanism for inelastic scattering of neutrons may be very simply described as this: When the neutron hits the nucleus of an atom in the crystal, energy may be transferred from the neutron to the nucleus and it will start oscillating...
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    Mellin's inversion integral, branch cut problem

    I'm just learning this stuff myself, but I think residues are wrong, since the closed contour is the full contour and the small circle is open, and coming from above and below does not necessarily lead you to the same point, since the function may be multivalued. I believe you need to do the...
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    Collapse of a wave function

    If the wavefunction is interpreted as a (time-evolving) probability distribution for the position of the particle, then immidiately after the measurement the wavefunction is restricted to the state corresponding to the measured eigenvalue. The shape of this wavefunction will depend strongly on...
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    Why doesn't light move at an infinite speed?

    Virtual particles may propagate at speeds larger than c, but relativity prohibits that any information is transferred at velocities larger than c.
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    What is a double integral?

    Write: \int_{lower}^{upper}f(x)dx between sets of square brackets with itex and /itex respectively or between <backslash>begin{equation} and <backslash>end{equation}. The former gives \begin{equation} \int_{lower}^{upper}f(x)dx \end{equation} in-line, the latter creates a formula on a new line.
  12. R

    What is a mole (mol) and g/mol?

    Hmm, I dindn't write that mol is defined in mass units, but from it... Anyway, we obviously agree on what 1 mol and 1 u are, so maybe we shouldn't confuse the boy further by pedantically contradicting each other.
  13. R

    What is a mole (mol) and g/mol?

    Maybe you could be more specific about what you need it for? Someone here can probably provide you with exactly the number you need in units you are familiar with. (But please, keep asking questions of this sort anyway!)
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    Approximation of error function-type integral

    Ok, so for \begin{equation} \frac{1}{\sqrt{A}} \int_{-\sqrt{A}B}^{\infty} dx \: e^{-ix^2} \end{equation} with \sqrt{A}B large and positive we may extend the limit to -\infty and obtain \sqrt{\frac{\pi}{A}} e^{-i\frac{\pi}{4}}, and for \sqrt{A}B\approx 0 we get half of that, but what...
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    Approximation of error function-type integral

    Hi! How do I approximate the integral \begin{equation} \int_0^{\infty} dt \:e^{-iA(t-B)^2} \end{equation} with A, B real, A > 0, and B=b \cos\theta where 0 \leq \theta < 2\pi? I guess for B\ll 0 the lower limit may be extended to - \infty to yield a full complex gaussian integral, but what...
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    What is a mole (mol) and g/mol?

    Just like a dusin is 12 and a million is 1000000, 1 mol is 6,022 \cdot 1023. The mol is defined from the massunit "units", which is defined as \frac{1}{12} of the mass of a carbon-12 atom, so that 1 u = 1 g/mol. Thus one water molecule weighs 18.02 u whereas 1 mol of water molecules weigh...
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    What Language do I need?

    For first programming projects Matlab is excellent in my experience. The help-function is easy to use, it tells you what you're doing wrong, and there are many good tutorials available.
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    Photons as particles

    I find that there's a basic difference between what we are able to describe mathematically and what we are able to comprehend. Inevitably this will lead to an abundance of stupid and/or strange questions seen from the photons perspective :-)
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    Photons as particles

    Maybe Quick Karls question simply leads back to our (current) lack of ability to comprehend the meaning of wave-particle dualism...?
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    Kenetic Energy of a Particle due to Speed

    An accelerated (charged) particle emits photons. The acceleration may be rotational so that the velocity changes direction even though the speed is unaltered. For example at a synchrotron x-rays are generated by leading a bunch of fast electrons through so-called wigglers consisting of...
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    Green's function for Klein-Gordon equation in x-space

    Cheers, Bill_K! I just knew there had to be a neat trick for this!
  22. R

    Green's function for Klein-Gordon equation in x-space

    I'm trying to derive the x-space result for the Green's function for the Klein-Gordon equation, but my complex analysis skills seems to be insufficient. The result should be: \begin{eqnarray} G_F(x,x') = \lim_{\epsilon \rightarrow 0} \frac{1}{(2 \pi)^4} \int...
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