12. O0 A photon of the wavelength 2.00x10-13 m strikes a deuterium nucleus at rest splitting it into a proton and a neutron. Calculate the total kinetic energy (of both proton and neutron) released in this interaction K = and of J = MeV. Calculate the speed of the proton the neutron after this photodisintegration. The mass of deuterium nucleus is 2.013602 u,

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12. OO A photon of the wavelength 2.00x10-13 m strikes a deuterium nucleus at rest splitting it into a proton
and a neutron. Calculate the total kinetic energy (of both proton and neutron) released in this interaction K =
and of
J =
MeV. Calculate the speed of the proton
the neutron
after this photodisintegration. The mass of deuterium nucleus is 2.013602 u,
Transcribed Image Text:12. OO A photon of the wavelength 2.00x10-13 m strikes a deuterium nucleus at rest splitting it into a proton and a neutron. Calculate the total kinetic energy (of both proton and neutron) released in this interaction K = and of J = MeV. Calculate the speed of the proton the neutron after this photodisintegration. The mass of deuterium nucleus is 2.013602 u,
the mass of a proton is 1.007276 u and of a neutron 1.008665 u. Neglect the initial momentum (but not the
energy) of the photon here. Ifa proton and a neutron, but being at rest, fuse back into deuteron, then how much
energy will be released?
radiated then - assuming that only one photon will be radiated?
photons (of equal wavelength) will be radiated, what wavelengths each of them will have?
J =
MeV. What wavelength of photon will be
If instead of one photon, two
Transcribed Image Text:the mass of a proton is 1.007276 u and of a neutron 1.008665 u. Neglect the initial momentum (but not the energy) of the photon here. Ifa proton and a neutron, but being at rest, fuse back into deuteron, then how much energy will be released? radiated then - assuming that only one photon will be radiated? photons (of equal wavelength) will be radiated, what wavelengths each of them will have? J = MeV. What wavelength of photon will be If instead of one photon, two
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