Neutrons are the source of the fission reaction that occurs
within the nuclear power plant. The fissioning process of
Uranium-235 can be shown by the following abbreviation. To
correctly complete this equation select 6 choices from the
elemental symbols, atomic numbers, and atomic masses listed as
possible answers. Several combinations will work for a correct
answer.
23592U (n, 3n)
bac and
edf
a) Ba
b) Kr
c) Fe
d) Sb
e) Sr
f) Xe
g) 26
h) 36
i) 38
j) 51
k) 54
l) 56
m) 56
n) 90
o) 92
p) 122
q) 141
r) 143
a) Barium is a chemical element with symbol Ba and atomic number 56. It is the fifth element in group 2 and is a soft, silvery alkaline earth metal.
Atomic mass: 137.327 u
b) Krypton is a chemical element with symbol Kr and atomic number 36. It is a member of group 18 elements
Atomic mass: 83.798 u
c) Iron is a chemical element with symbol Fe and atomic number 26. It is a metal in the first transition series
Atomic mass: 55.845 u ± 0.002 u
d) Antimony is a chemical element with symbol Sb and atomic number 51
Atomic mass: 121.76
e) Strontium is the chemical element with symbol Sr and atomic number 38. An alkaline earth metal, strontium is a soft silver-white yellowish metallic element that is highly reactive chemically
Atomic mass: 87.62 u
f) Xenon is a chemical element with symbol Xe and atomic number 54. It is a colorless, dense, odorless noble gas found in the Earth's atmosphere in trace amounts
Atomic mass: 131.293 u
Neutrons are the source of the fission reaction that occurs within the nuclear power plant. The...
oart A and B please ission Reactions In a nuclear fission reaction a heavy nucleus divides to form smaller nuclei and one or more neutrons. Many nuclei can undergo fission, but the fission reactions of uranium-235 and plutonium-239 are the principal ones that generate energy in nuclear power plants. This problem deals with balancing the fission reaction of the uranium-235 isotope as it undergoes bombardment from a neutron 14 of 36 > Review Constants 1 Periodic Table When a U...
Review Constants | Periodic Tat When a 99 U nucleus is bombarded by neutrons (n) it undergoes a fission feaction, resulting in the formation of two new nuclei and neutrons. The following equation is an example of one such fission process: U + n-Ba + Kr + 3on Enter the isotope symbol for the barium (Ba) nucleus in this reaction. Express your answer as an isotope. View Available Hint(s) - AED mo? Submit Part B In another process in which...
Consider the fission reaction 23592U+n→13351Sb+9841Nb+?n. Part A How many neutrons are produced in this reaction? Part B Calculate the energy release. The atomic masses for Sb and Nb isotopes are 132.915250 u and 97.910328 u, respectively.
Please show all work, steps, and units! Thanks! Suppose that in a nuclear fission event, a U-235 nucleus splits into four new particles. Two of them are the nuclei Kr-90 and Ba-143 and two of them are neutrons (see equation below). Using masses available online or in a chart of nuclides, determine the kinetic energy released in the fission event.^235U rightarrow^90 Kr +^143Ba + 2n + KE
Please show all work thank you! (Assignment 25 (Chapter 19) Nuclear Fission and Fusion < 3 of 10 > Review | Constants Periodic Table - Part A Certain heavy nuclei undergo nuclear fission when struck by neutrons, breaking apart into fragment nuclel and releasing a large amount of energy. Light nuclei undergo nuclear fusion when healed to very high temperatures, forming heavier nuclei and releasing large amounts of energy. Sort these isotopes by whether they are most likely to undergo...
The neutron-induced fission of U-235 produces Ba-140 and Kr-93, along with 3 neutrons. Use the following atomic masses: U-325: 235.04392 amu neutron: 1.00866 amu Ba-140: 139.910581 amu Kr-93: 92.931130 amu If the US needs 1.42 x 1016 kJ of electrical energy every year (for 2018 the value was 1.44 x 1016 kJ), how many kg of U-235 would have to undergo fission to supply this energy? (You can assume 100% efficiency in the conversion of energy from the fission reaction...
Consider a fission reaction where a Uranium-235 nucleus absorbs a neutron and then splits to Strontium, Xenon, and some neutrons. If the strontium nucleus has a mass number of 89 and the Xenon nucleus has a mass number of 144, how much energy is released in a single reaction? Use the attached table for the atomic masses of the nuclei. Give your answer in MeV and with 4 significant figures. (Hint: Balance the reaction first). Isotope Masses for Fission A...
Consider a fission reaction where a Uranium-235 nucleus absorbs a neutron and then splits to Strontium, Xenon, and some neutrons. If the strontium nucleus has a mass number of 93 and the Xenon nucleus has a mass number of 140, how much energy is released in a single reaction? Use the attached table for the atomic masses of the nuclei. Give your answer in MeV and with 4 significant figures. Neutron 0 1 1.008665 Uranium 92 235 235.043923 Strontium 38...
When 235U fissions, the fission products are not always the same and exactly two neutrons are not always released. An example of one fission reaction is You may want to use the following table of atomic masses: Table of masses 141Ba 140.9144 u 144Ba 143.9229 u 139Te 138.9347 u 141Cs 140.9196 u 90Kr 89.91952 u 91Kr 90.92344 u 92Kr 91.92615 u 94Zr 93.90632 u 93Rb 92.92157 u 235U 235.0439 u p 1.00728 u n 1.00867 u 1. What is the...