User talk:63.23.82.33
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[edit] Your edit to Fart
Your recent edit to Fart was reverted by an automated bot that attempts to recognize and repair vandalism to Wikipedia articles. If the bot reverted a legitimate edit, please accept my humble creator's apologies – if you bring it to the attention of the bot's owner, we may be able to improve its behavior. Click here for frequently asked questions about the bot and this warning. // AntiVandalBot 20:43, 18 June 2006 (UTC)
[edit] Vandalism
Nice try, but it doesn't make sense that two ships named USS would be fighting each other. Maybe you should've named it the HMS Vandal instead? --Cyde↔Weys 20:58, 18 June 2006 (UTC)
[edit] Question from MPHO LEKGOATHI
Hi
I would like to know what happens to the "empty orbitals" of the metal during photoelectric effect as electrons have just been ejected. And if the photons behaved like energy carrying particles, what happens to those actual particles after delivering energy to the electrons?
I strongly believe a photon can carry two types of energy densities,(which are its actual composition) possibly at the same time: ie. magnetic energy density and electric energy density, making it an electromagnetic wave. However, the proportions of these energy densities differ according to the frequency of the photon so that if the frequency is high, the photon has more electric energy density and thus can transfere that energy to an electron (like charges),and the remaining magnetic energy density converted to kinetic energy of an electron. According to my calculations, if this is true, then photons carry the same amount of energy but different proportions of magnetic energy to electric energy density, making the behaviour of different photons different. And if this seem to be real, then my calculation of "Mass of a photon", which i found to be constant using any wavelength of light and assuming a photon to be a particle, may be right!
Please answer me. MPHO LEKGOATHI e-mail: msdlekgoathi@webmail.co.za
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