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Kinetic energy of alpha particle in alpha decay
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[QUOTE="Kara386, post: 5448076, member: 586556"] [h2]Homework Statement [/h2] Consider the nuclear decay [SUP]214[/SUP][SUB]86[/SUB]Rn → [SUP]210[/SUP][SUB]84[/SUB]Po[SUP]2-[/SUP] + α. Calculate the Q for this decay, and give the value of the kinetic energy of the alpha particle in the rest frame of the Rn nuclide. The rest mass of the Rn nuclide is 213.9954u, of Po is 209.9829u, of α is 4.00015u and of an electron is 0.0005u. Neglect relativity! [h2]Homework Equations[/h2] ##Q = (m_P - m_D-m_{\alpha})c^2## ##m_P## is mass of parent, ##m_D## is mass of daughter, ##m_\alpha## is mass of the alpha particle (rest masses, I think) [h2]The Attempt at a Solution[/h2] The equation above gives a Q value of 10.2465MeV, assuming that because masses are in units of u then ##c^2=931.5MeV/c^2##. Or that's what I thought, until I noticed the ##2-## superscript for Po. Should I add two lots of the electron mass onto my answer? Not that it makes a massive difference, but since we're given the electron mass presumably I have to use it. For the second part, label kinetic energy of ##\alpha## particle ##T_{\alpha}##, of daughter nuclide ##T_D##. I'm going to say that since we're in the rest frame of the Rn nuclide, that means it was initiallty at rest? So by conservation of momentum, ##p_{\alpha}+p_D = 0## and ##p_{\alpha} = \sqrt{2m_{\alpha}T_{\alpha}}## ; ##p_{D} = -\sqrt{2m_{D}T_{D}}##. So since ##p_D = -p_{\alpha}##: ##T_{\alpha} = \frac{m_D}{m_{\alpha}}T_D## That doesn't really get me anywhere, I don't think. Is this the wrong approach? Where could I go from here? Thanks for any help! [/QUOTE]
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Kinetic energy of alpha particle in alpha decay
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