In nuclear reactors an example reaction would be Np-239 (nuclear mass defect = 49.3110 MeV/c^2) to Pu-239 (nuclear mass defect = 48.5882 MeV/c^2) + other products. For a mole of these reactions calculate the magnitude in the change in energy. (Answer in GJ with three sig figs)
In nuclear reactors an example reaction would be Np-239 (nuclear mass defect = 49.3110 MeV/c^2) to...
In nuclear reactors an example reaction would be Np-239 (nuclear mass defect = 49.3110MeV/c^2) to Pu-239 (nuclear mass defect = 48.5882MeV/c^2) + other products. Calculate the magnitude of the difference in total nuclear binding energy before and after. (Answer in MeV with three sig figs)
What is the energy released in this β−β−nuclear reaction 239
93Np→239 94Pu+0−1e932 39Np→942 39Pu+−10e? (The atomic mass of
239Np239Np is 239.052939 u and that of 239Pu239Pu is 239.052163
u)
6. What is the energy released in this β 239.052163 u) nuclear reaction 9Np → 9 Pu + ,e? (The atomic mass of 239 Np is 239.052939 u and that of 239Pu is MeV
6. What is the energy released in this β 239.052163 u) nuclear reaction 9Np → 9 Pu...
Calculate the mass defect (in g/mole) and nuclear binding energy in MeV/nucleon)for 5927Co, Mass data: 5927Co = 58.93320 g/mole; n = 1.008665 g/mole, p = 1.00728 g/mole and e: = 0.000549 g/mole
1. Nuclear Reactions (i) In class we went through the U-235 fission reaction. There is another nuclear fission reaction that can be used in a reactor and that is the plutonium-239 reaction. Write down what that reaction is for the fission of a plutonium if the daughter products are 134Xe, 143Zr and 3 neutrons. 23Pu= 239.0521u u= 1.6605x10-27 kg e= 1.609x10-19 JeV 134Xe = 133.9054u in= 1.0087u 29.Pu=240.0538u 193Zr = 102.9266u c=2.9979x109 ms! 235 U = 235.0439u (ii) What is...
Example 5 Nuclear Incident A nuclear incident has exposed a 70kg worker to 1 Ci of 2 MeV photons for 1 minute. Assuming that all the energy of absorbed photons is deposited in the body with uniform distribution, what absorbed dose of radiation has the worker suffered? What effective dose? What would have been his effective dose if the exposure has been concentrated entirely in his stomach (mass 0.5kg)?
Example 5 Nuclear Incident A nuclear incident has exposed a 70kg...
please solve
QUESTION 1 239 a) (15 p) We consider a nuclear reactor of power output P-1000 Megawott (1000 million watts) electric functioning with Plutonium. It is fueled, initially, with 1000 kg of Plutonium. The nuclear material in question is made of Plutonium nuclei, each consisting in 94 protons and 239-94-145 neutrons, which is rd denominated by the symbol 94 Pu For thermodynamical reasons, only 1/3 of the nuclear energy in the form of heat produced by the reactor, can...
Il Review | Constants Periodic Table Unlike chemical reactions, for which mass is conserved, nuclear reactions result in slight changes in mass. When mass is lost, it becomes energy according to the equation Natural gas (mainly CH4) is used in many power plants to generate electrical power utilizing combustion reactions. Uranium-235 is used to generate power utilizing nuclear fission. Fusion reactions involving hydrogen-1 are under investigation as a future source of electrical power. AE=Amục where AE is the energy in...
QUESTION 1 239 a) (15p) We consider a nuclear reactor of power output P-1000 Megawatt (1000 million watts) electric functioning with Plutonium. It is fueled, initially, with 1000 kg of Plutonium. The nuclear material in question is made of Plutonium nuclei, each consisting in 94 protons and rd 239-94-145 neutrons, which is denominated by the symbol 94 Pu For thermodynamical reasons, only 1/3 of the nuclear energy in the form of heat produced by the reactor, can be converted into...
at is the change in energy for this nuclear reaction? Use the data in the companying table. Express your answer in scientific notation and to three gnificant figures. Use c = 3.00x10 m/s. 44pu - 141Ba + 915r + 12'n isotope mass, g 244Pu 244.0642 141 Ba 140.9144 915 90.9102 in 1.0087 AE = Fill in the blank to complete the statement. In order to calculate the energy change of a nuclear reaction, the change in mass must be expressed...
Example 2 Calculate the energy released in the following nuclear reaction, given the masses indicated: 23 U → 232Th + He My-236 = 236.045562 u Mth-232 = 232.038051 u MH-4 = 4.003603 u Example 3 Determine the energy released when a deuterium atom (D) fuses with a tritium atom (T) to form helium, according to the nuclear reaction equation below. Use the given masses. ?H + H → He + In + energy mp = 2.014 10 u my =...