Ewen Posted July 3, 2005 Posted July 3, 2005 I am having difficulty understanding the uncertainty principle. I am aware that it says that you cannot acurately know both the speed and position of a particle at any given time, but I'm struggling to picture how that works. I'm sure it's a very simple concept but having only read some quite deep reading on the subject I feel like I'm missing out a key element. Could anyone explain it or give a for instance? Thank you.
swansont Posted July 3, 2005 Posted July 3, 2005 I am having difficulty understanding the uncertainty principle. I am aware that it says that you cannot acurately know both the speed and position of a particle at any given time' date=' but I'm struggling to picture how that works. I'm sure it's a very simple concept but having only read some quite deep reading on the subject I feel like I'm missing out a key element. Could anyone explain it or give a for instance? Thank you.[/quote'] From a physical standpoint it's like this: in order to make a measurement, you must have an interaction. Any interaction will change the momentum and position of the particle you're trying to measure. IOW, if you bounce a photon off of an electron, the electron will recoil, changing its position and momentum. You can only gain a limited amount of information. If you try and use a low-energy photon to minimize the recoil, the wave nature (large wavelength) means that you can't get good position information. If you use short wavelength to get good localization, you get a large amount of recoil.
lethalfang Posted July 6, 2005 Posted July 6, 2005 From a physical standpoint it's like this: in order to make a measurement' date=' you must have an interaction. Any interaction will change the momentum and position of the particle you're trying to measure. IOW, if you bounce a photon off of an electron, the electron will recoil, changing its position and momentum. You can only gain a limited amount of information. If you try and use a low-energy photon to minimize the recoil, the wave nature (large wavelength) means that you can't get good position information. If you use short wavelength to get good localization, you get a large amount of recoil.[/quote'] I don't really get quantum mechanics either. Can you explain to me how you get an interference pattern from a double slit when you only beam ONE SINGLE ELECTRON at a time?
swansont Posted July 6, 2005 Posted July 6, 2005 I don't really get quantum mechanics either. That's not a particularly exclusive club. Can you explain to me how you get an interference pattern from a double slit when you only beam ONE SINGLE ELECTRON at a time? An electron is not strictly a particle - it has a wave nature, the wave passes through both slits, and it interferes with itself. If you restrict the electron to passing through only one slit, the interference pattern disappears.
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