Widdekind Posted March 11, 2010 Posted March 11, 2010 In Classical physics, particles are pure points, which form World-lines through Spacetime. Conversely, Quantum physics pictures particles as Wave Functions which are extended in space. Are Wave Functions extended in time, too ?
ajb Posted March 11, 2010 Posted March 11, 2010 Well in general they persist for more than an instant.
theoriginal169 Posted March 17, 2010 Posted March 17, 2010 (edited) [math]\frac{\delta}{\delta t}[/math][math]\int[/math][math]\psi[/math] Edited March 17, 2010 by swansont fix LaTEx syntax error
Amr Morsi Posted March 25, 2010 Posted March 25, 2010 If the potential is not a function of time (i.e. function of space only), then schrodinger equation will be solved by separation of variables, and the time function will be only a phase function (exp(-iE*t/hbar)). However, if the potential is function of time, then the solution will be more complicated and the maximum of the probability density function will be moving with time through space; which gives the analogy to motion in classical physics.
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