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How to calculate any expectation value from path integral in quantum mechanics? In QM path integral the initial and final points are fixed and points between them are varied. But as far as i ...
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In Section 7.2.1 of Bergman's Fundamentals of Heat and Mass Transfer, there is a derivation of the Blasius equation $$ 2 \frac{\mathrm d^3 f}{\mathrm d \eta^3} + f \frac{\mathrm d^2 f}{\mathrm d \eta^...
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Consider this setup: A classic, harmonic oscillator made of a spring with spring constant $k$ and a mass $m_1$ that oscillates vertically. $m_1$ is formed like a horizontal plate, and on the plate ...
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Consider a dynamical system with Lagrangian $L$ and configuration space $X$, we are interested in trajectories of this system over a time interval $q:[t_0,t_1]\rightarrow X$. When one has the ...
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In introductory physics courses one often discusses standing waves on a string with two fixed ends. A standard experimental demonstration of this is given here. My problem is that in such a ...
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Given a particle in space, the EL equations give us a differential equation for determining how the partilce will move as time evolves. I am comfortable deriving a least action principle which ...
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1 answer
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I would like to calculate the optical conductivity of a particle in a box, which means calculating a correlation function of the momentum operator. The momentum operator appears in the calculation ...
BGreen's user avatar
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Solving Laplace in a conducting wedge of opening angle $a$ with Dirichlet data on $\phi = 0, a$ gives $$ \Phi(r, \phi) = \sum_{n=1}^\infty A_nr^{n\pi / a} \sin \frac{n\pi \phi}{a}. $$ Near the apex $r ...
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Question: Why isn’t the magnetic field $B$ discontinuous at the surface of a current-carrying wire if the permeability inside ($\mu_m$) and outside ($\mu_0$) are different? When deriving the magnetic ...
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Imagine that we have a (copper) wire with radius $a$ and length $L$ oriented along the $z$ axis. Maxwell's equations inside the wire are: $$ \nabla \cdot \mathbf{E} = \rho/\varepsilon \\ \; \\ \nabla \...
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The question is linked to this question. The microscopic stochastic processes are defined using homogeneous jump probabilities between sites. The assumption will be broken when we have physical ...
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In Henneaux & Teitelboim (Quantization of Gauge Systems, p. 30), they discuss the variation of a dynamical variable $$ \delta F = \int d^nx\, u(x)\,\{F, C(x)\}_{PB},\tag{1.62} $$ where $C(x)$ is a ...
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So in Griffith's, after doing separation of variables on the angular equation $$ \sin\theta \frac{\partial}{\partial\theta}(\sin\theta \frac{\partial Y}{\partial\theta}) + \frac{\partial^2 Y}{\partial ...
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I was trying to work out the details of the paper by Horowitz and Strominger titled "Black Strings and $p$-Branes". This can be accessed via https://inspirehep.net/literature/29494. I am ...
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Imagine a simple QFT with action principle \begin{equation} S[\phi,J]=\int d^4x \Big\{-\frac{1}{2}\phi\Box \phi+J\phi\Big\}. \end{equation} As usual, we solve the field equations $\Box \phi=J$ to get \...
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