guncamp Posted May 10, 2013 Posted May 10, 2013 (edited) I am reading a book on an introduction to quantum physics and I came across what appears to me as two conflicting statements. I believe it said that a single photon cannot have enough energy to knock loose an electron due to the fact the the photon is quantized. Yet a few pages after this the book claims that "The energy necessary to knock loose an electron is provided by a single photon in an incoming electromagnetic wave". So which statement is true? Edited May 10, 2013 by guncamp
krash661 Posted May 10, 2013 Posted May 10, 2013 (edited) it appears the problem is that you think a proton and photon are the same particle,but i'm not sure,Protonhttp://en.wikipedia.org/wiki/ProtonElectronhttp://en.wikipedia.org/wiki/Electronphotonhttp://en.wikipedia.org/wiki/PhotonPhotoelectric effecthttp://en.wikipedia.org/wiki/Photoelectric_effect Edited May 10, 2013 by krash661
swansont Posted May 10, 2013 Posted May 10, 2013 I am reading a book on an introduction to quantum physics and I came across what appears to me as two conflicting statements. I believe it said that a single photon cannot have enough energy to knock loose an electron due to the fact the the photon is quantized. Yet a few pages after this the book claims that "The energy necessary to knock loose an electron is provided by a single proton in an incoming electromagnetic wave". So which statement is true? I believe you misread it. A single photon below a certain frequency (or above a certain wavelength) can't cause ionization. e.g. a red photon has around 1.5 eV of energy, and will not cause ionization. But a blue photon has double that, and can cause ionization in some molecules. A UV photon can ionize almost any molecule and many atoms. 2
guncamp Posted May 10, 2013 Author Posted May 10, 2013 My apologies, I for some reason put proton instead of photon. i corrected the mistake.
guncamp Posted May 10, 2013 Author Posted May 10, 2013 I believe you misread it. A single photon below a certain frequency (or above a certain wavelength) can't cause ionization. e.g. a red photon has around 1.5 eV of energy, and will not cause ionization. But a blue photon has double that, and can cause ionization in some molecules. A UV photon can ionize almost any molecule and many atoms. I must have misread it. Looking back it indeed does say photons of small energy. Silly mistake, I must have just overlooked it. Thanks for the clarification.
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