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Use the periodic table to complete this nuclear fission equation.

[tex]\[ {}_{92}^{235} U + {}_0^1 n \rightarrow {}_{56}^{139} Ba + {}_Z^A \text{X} + 3 {}_0^1 n \][/tex]

A: [tex]\(\square\)[/tex]

B: [tex]\(\square\)[/tex]

C: [tex]\(\square\)[/tex]

Sagot :

GinnyAnsweridn
To solve this problem, let's analyze and balance the given nuclear fission equation step-by-step.

The given nuclear equation is:
[tex]\[ _{92}^{235} U + { }_0^1 n \rightarrow { }_{56}^{139} Ba + { }_8 C + 3 { }_0^1 n \][/tex]

We need to find the missing element that should balance both the mass (nucleon) numbers and atomic (proton) numbers. Let's break it down:

1. Calculate the total mass number (A) before the reaction.

Before the reaction:
- Uranium-235 ([tex]\(_{92}^{235}U\)[/tex]): [tex]\( A = 235 \)[/tex]
- Neutron ([tex]\({ }_0^1n\)[/tex]): [tex]\( A = 1 \)[/tex]

So, the total mass number before the reaction is:
[tex]\[ 235 + 1 = 236 \][/tex]

2. Calculate the total atomic number (Z) before the reaction.

Before the reaction:
- Uranium-235 ([tex]\(_{92}^{235}U\)[/tex]): [tex]\( Z = 92 \)[/tex]
- Neutron ([tex]\({ }_0^1n\)[/tex]): [tex]\( Z = 0 \)[/tex]

So, the total atomic number before the reaction is:
[tex]\[ 92 + 0 = 92 \][/tex]

3. Calculate the mass number (A) of the known particles after the reaction.

After the reaction, we have:
- Barium-139 ([tex]\(_{56}^{139}Ba\)[/tex]): [tex]\( A = 139 \)[/tex]
- Three neutrons ([tex]\(3{ }_0^1 n\)[/tex]): [tex]\( A = 3 \times 1 = 3 \)[/tex]

So, the total mass number from the known products is:
[tex]\[ 139 + 3 = 142 \][/tex]

4. Calculate the atomic number (Z) of the known particles after the reaction.

After the reaction, we have:
- Barium-139 ([tex]\(_{56}^{139}Ba\)[/tex]): [tex]\( Z = 56 \)[/tex]
- Three neutrons ([tex]\( 3 { }_0^1 n \)[/tex]): [tex]\( Z = 3 \times 0 = 0 \)[/tex]

So, the total atomic number from the known products is:
[tex]\[ 56 + 0 = 56 \][/tex]

5. Determine the unknown element to balance the mass and atomic numbers.

To balance the mass numbers:
- Total mass number before the reaction: [tex]\( 236 \)[/tex]
- Mass number of known products ([tex]\(142\)[/tex])

Therefore, the mass number of the unknown element becomes:
[tex]\[ 236 - 142 = 94 \][/tex]

To balance the atomic numbers:
- Total atomic number before the reaction: [tex]\( 92 \)[/tex]
- Atomic number of known products ([tex]\(56\)[/tex])

Therefore, the atomic number of the unknown element becomes:
[tex]\[ 92 - 56 = 36 \][/tex]

6. Identify the unknown element using the periodic table.

The element with atomic number 36 is Krypton ([tex]\(_{36}Kr\)[/tex]).

Thus, the completed nuclear reaction equation is:
[tex]\[ {}_{92}^{235} U + {}_0^1 n \rightarrow {}_{56}^{139} Ba + {}_{36}^{94} Kr + 3 {}_0^1 n \][/tex]

In summary:
- [tex]\( A \)[/tex]: [tex]\({}_{36}^{94} Kr\)[/tex]
- [tex]\( B \)[/tex]: [tex]\({}_{36}^{94} Kr\)[/tex]
- [tex]\( C \)[/tex]: [tex]\({}_{36}^{94} Kr\)[/tex]
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