Problem 1.14 | Griffiths' Introduction to Quantum Mechanics | 3rd Edition
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Загружено: 2024-03-27
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Problem 1.14
Let $P_{ab}(t)$ be the probability of finding the particle in the range $(a less than x less than b)$, at time t.
(a) Show that $\dfrac{dP_{ab}}{dt}=J(a,t)-J(b,t)$ where
$J(x,t)=\dfrac{i \hbar}{2m}(\Psi \dfrac{\partial \Psi^*}{\partial x}-\Psi^* \dfrac{\partial \Psi}{\partial x}).$
What are the units of $J(x,t)$? Comment: J is called the probability current, because it tells you the rate at which probability is “flowing” past the point x. If $P_{ab}(t)$ is increasing, then more probability is flowing into the region at one end than flows out at the other.
(b) Find the probability current for the wave function in Problem 1.9. (This is not a very pithy example, I’m afraid; we’ll encounter more substantial ones in due course.)
https://tru-physics.org/2023/03/11/pr...
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