...defined velocity.. argue here!? [from Wikipedia:]
The only kind of wave with a definite position is concentrated at one point, and such a wave has an indefinite wavelength (and therefore an indefinite momentum). Conversely, the only kind of wave with a definite wavelength is an infinite regular periodic oscillation over all space, which has no definite position. So in quantum mechanics, there can be no states that describe a particle with both a definite position and a definite momentum. The more precise the position, the less precise the momentum.
you can see his results here, http://www.teamuluv.com/cgi-bin/well/mike_talkin.cgi
only after you ask him a questions
and here, for you quizzical, i have ported the answers to individual jpgs, and the links here
http://www.teamuluv.com/cgi-bin/thiswell/img_talk2.cgi.gif
ty for reading, i've got more.. but g2g
later guys
The only kind of wave with a definite position is concentrated at one point, and such a wave has an indefinite wavelength (and therefore an indefinite momentum). Conversely, the only kind of wave with a definite wavelength is an infinite regular periodic oscillation over all space, which has no definite position. So in quantum mechanics, there can be no states that describe a particle with both a definite position and a definite momentum. The more precise the position, the less precise the momentum.
you can see his results here, http://www.teamuluv.com/cgi-bin/well/mike_talkin.cgi
only after you ask him a questions
and here, for you quizzical, i have ported the answers to individual jpgs, and the links here
http://www.teamuluv.com/cgi-bin/thiswell/img_talk2.cgi.gif
ty for reading, i've got more.. but g2g
later guys