CERN can accelerate protons up to 99.9999991% of the speed of light. what is the decay constant factor for these protons
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Q: CERN can accelerate protons up to 99.9999991% of the speed of light. What is the γ factor for these…
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CERN can accelerate protons up to 99.9999991% of the
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- Supply the missing neutrinos in the following reactions or decays. (a) µ+ → e+ + ? (b) ? + p → n + e+ (c) π- → µ- + ? (d) K- → µ- + ? (e) ? + n → p + µ-If a Σ+ at rest decays into a proton and a p0, what is the total kinetic energy of the decay products?7 mi.. of. tr. J. 0.. J.. D. e.. 8 Al 32. A baryon is a hadron composed of THREE quarks. A neutron is a baryon with the following quark designation: cbb Oudd Duud Ouss 33. Which of the following decay equations describes beta positive decay? Ouududd +e++v Oudd uud+e++v Oudduud +e+v Ouududd +e+v Written Response 34. hp BB afe FA
- Determine which of the following decays or reactions is not allowed and explain why. (a) p + p → p + π++Λ+-K0 (b) Λ → p + π0What particle does the X stand for in the antimuon decay mu+ --> ve + vmu + X? Explain how you know.5. Pion beams (*) are used to treat cancer in radiation therapy. The energy comes from the decay of the pions. Negative pions usually decay into a muon and a muon antineutrino. (a) (b) Write out the complete decay of a л into stable particles. How much energy is released from a complete decay? Assume the neutrino masses are negligible. (c) How many pions need to decay to give a dose of 50.0 Gy to 10.0 grams of tissue?
- 5. How much energy is released in the decay + → µt + v„? 6. How much energy is required to produce a neutron-antineutron pair?Beams of p- mesons are used in radiation therapy for certain cancers. The energy comes from the complete decay of the p- to stable particles. (a) Write out the complete decay of a p- meson to stable particles. What are these particles? (b) How much energy is released from the complete decay of a single p- meson to stable particles? (You can ignore the very small masses of the neutrinos.) (c) How many p- mesons need to decay to give a dose of 50.0 Gy to 10.0 g of tissue? (d) What would be the equivalent dose in part (c) in Sv and in rem? Consult Table 43.3 and use the largest appropriate RBE for the particles involved in this decay.How much energy in joules is produced by single fusion reaction? .02862 times the mass of a single proton