On absorption of a single neutron, plutonium Pu-239 can undergo fission into xenon Xe-134 plus zirconium Zr-103 plus three neutrons. The masses of these nuclei are, mpu-239 = 239.052 amu, mxe-134 = 133.905 amu, and mZr-103 = 102.927 amu. Calculate the energy given off in this nuclear reaction. %3D
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- Calculate the Q value and threshold energy of the reaction 9F¹9(n,p)80¹⁹ ? mn=1.008665u, mp=1.007825u, m(80¹)= 19.003577u, m(9F¹9)=18.998403u, c²-931.5 MeV/u04 239 Pu are very The fission properties of 94 similar to those of 235 U. The average energy 92 released per fission is 180 MeV. How much energy, in MeV, is released if all the atoms in 1 Pu undergo fission? 239 kg of pure 94Consider the following a-decay of the Uranium nucleus 236 U → 332Th + a. 90 (a) Show how the mass number (Aa) and atomic number (Za) of the alpha particle are obtained from this equation. (b) Calculate the Q-value (Qa) of the reaction. (c) Calculate the speed va = √2MQ of the alpha particle after it has been ejected from the parent nucleus, in terms of the speed of light c. M = -, mp and ma are the atomic masses (ma+mp) x ma mp of the daugher nucleus and the alpha particle, respectively. (d) Calculate the classical turning radius Re= 2Zpe²/Qa, where Zp is the atomic number of the daughter nucleus, and e² = 1.44 MeV. fm. (e) Calculate the decay probability Pa that the alpha particle will tunnel through the barrier. HINT: In calculating the probability, use the fact that ħc=197.327 MeV fm. The formula to use is given on page 5.
- A nucleus of 238 Np captures a thermal neutron to form a nucleus of 239 Np . What is the excitation energy ( to 1 dp ) in MeV for this process ?9 H the mass of the products in a fission reaction is 3.2 x 10^28 kg less than the reactants, how much energy is released in the reaction? (A) 3.6 10 45J (B) 1.1 x 10-38J (C) 9.6 x 10420 J (D) 2.9 x 10-11 JCalculate the energy released in the following nuclear fission reaction: 239Pu+n→98Tc+138Sb+4n239Pu+n→98Tc+138Sb+4n Recall that the atomic masses are 239 Pu239 Pu = 239.052157 u u, 98 Tc 98Tc = 97.907215 uu, 138 Sb 138Sb = 137.940793u
- b) The following questions is about the 20Ne atom. Given: Rest mass of 20Ne, m²ºNe = 19.99244u Rest mass of proton, mp = 1.007825u Rest mass of neutron, m₂ = 1.008667u Rest mass of electron, m₂ = 5.4857 × 10-¹u i) ii) Calculate the binding energy per nucleon of the atom. In MeV. Calculate the mass defect of the atom. In MeV.A nucleus of 238 Np captures a thermal neutron to form a nucleus of 23⁹Np. What is the excitation energy (to 1 dp) in MeV for this process?29. The fission properties of 239 94 Pu are very similar to 235 those of 92 U. The average energy released per fission is 180 MeV. How much energy, in MeV, is released if 239 all the atoms in 1 kg of pure 24 Pu undergo fission? 94
- Suppose enriched uranium containing 3.70% of the fissionable isotope 23592U is used as fuel for a ship. The water exerts an average friction force of magnitude 2.50 105 N on the ship. How far can the ship travel per kilogram of fuel? Assume that the energy released per fission event is 208 MeV and the ship's engine has an efficiency of 20.0%. please answer should be in kmplease help me do this