Respuesta :
Answer: The isotopic symbol of barium is [tex]_{56}^{138}\textrm{Ba}[/tex] and that of strontium is [tex]_{38}^{89}\textrm{Sr}[/tex]
Explanation:
Nuclear fission reactions are defined as the reactions in which a heavier nuclei breaks down in two or more smaller nuclei.
In a nuclear reaction, the total mass and total atomic number remains the same.
- For the given fission reaction:
[tex]^{235}_{92}\textrm{U}+^1_0\textrm{n}\rightarrow ^A_Z\textrm{Ba}+^{94}_{36}\textrm{Kr}+3^1_0\textrm{n}[/tex]
- To calculate A:
Total mass on reactant side = total mass on product side
235 + 1 = A + 94 + 3
A = 139
- To calculate Z:
Total atomic number on reactant side = total atomic number on product side
92 + 0 = Z + 36 + 0
Z = 56
The isotopic symbol of barium is [tex]_{56}^{139}\textrm{Ba}[/tex]
- For the given fission reaction:
[tex]^{235}_{92}\textrm{U}+^1_0\textrm{n}\rightarrow ^A_Z\textrm{Sr}+^{143}_{54}\textrm{Xe}+3^1_0\textrm{n}[/tex]
- To calculate A:
Total mass on reactant side = total mass on product side
235 + 1 = A + 143 + 3
A = 90
- To calculate Z:
Total atomic number on reactant side = total atomic number on product side
92 + 0 = Z + 54 + 0
Z = 38
The isotopic symbol of strontium is [tex]_{38}^{89}\textrm{Sr}[/tex]
Hence, the isotopic symbol of barium is [tex]_{56}^{138}\textrm{Ba}[/tex] and that of strontium is [tex]_{38}^{89}\textrm{Sr}[/tex]
