In a nuclear reactions we must account for protons, neutrons, and electrons, as well as write out the symbols for various chemical elements when balancing the equation. In a nuclear equation, the pr and reactants are symbolized as 4X where X is the chemical symbol for the element, A is the mass number, and Z is the atomic number. There are two main rules to remember when balancing nuclear equations: ▼ 1. The total of the superscripts (mass numbers, A) in the reactants and products must be the same. 2. The total of the subscripts (atomic numbers, Z) in the reactants and products must be the same. Part B - Balance the decay equations Determine the particle that balances the equation. Drag the appropriate items to their respective bins. ► View Available Hint(s) B 2Po At+X KAr+Xn8+X 2B-28T1+X B P Reset Help

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### Balancing a Nuclear Equation

In nuclear reactions, we must account for protons, neutrons, and electrons, as well as write out the symbols for various chemical elements when balancing the equation. In a nuclear equation, the products and reactants are symbolized as:

\[
\frac{A}{Z}X
\]

where \( X \) is the chemical symbol for the element, \( A \) is the mass number, and \( Z \) is the atomic number. There are two main rules to remember when balancing nuclear equations:

1. The total of the superscripts (mass numbers, \( A \)) in the reactants and products must be the same.
2. The total of the subscripts (atomic numbers, \( Z \)) in the reactants and products must be the same.

#### Part B - Balance the Decay Equations

Determine the particle that balances the equation.

Drag the appropriate items to their respective bins.

- **Equations Provided:**
  1. \( ^{218}_{84}\text{Po} \rightarrow ^{218}_{85}\text{At} + X \)
  2. \( ^{38}_{19}\text{K} \rightarrow ^{38}_{18}\text{Ar} + X \)
  3. \( 1n \rightarrow ^{0}_{-1}\beta + X \)
  4. \( ^{210}_{83}\text{Bi} \rightarrow ^{206}_{81}\text{Tl} + X \)

- **Available Particles to Drag:**
  1. \( ^{0}_{-1}\beta \)
  2. \( ^{4}_{2}\alpha \)
  3. \( ^{0}_{1}\beta \)
  4. \( ^{1}_{0}n \)
  5. \( ^{1}_{1}p \)

Use these particles to balance the given nuclear equations by ensuring that both the total mass numbers and atomic numbers remain consistent on both sides of the equation.
Transcribed Image Text:### Balancing a Nuclear Equation In nuclear reactions, we must account for protons, neutrons, and electrons, as well as write out the symbols for various chemical elements when balancing the equation. In a nuclear equation, the products and reactants are symbolized as: \[ \frac{A}{Z}X \] where \( X \) is the chemical symbol for the element, \( A \) is the mass number, and \( Z \) is the atomic number. There are two main rules to remember when balancing nuclear equations: 1. The total of the superscripts (mass numbers, \( A \)) in the reactants and products must be the same. 2. The total of the subscripts (atomic numbers, \( Z \)) in the reactants and products must be the same. #### Part B - Balance the Decay Equations Determine the particle that balances the equation. Drag the appropriate items to their respective bins. - **Equations Provided:** 1. \( ^{218}_{84}\text{Po} \rightarrow ^{218}_{85}\text{At} + X \) 2. \( ^{38}_{19}\text{K} \rightarrow ^{38}_{18}\text{Ar} + X \) 3. \( 1n \rightarrow ^{0}_{-1}\beta + X \) 4. \( ^{210}_{83}\text{Bi} \rightarrow ^{206}_{81}\text{Tl} + X \) - **Available Particles to Drag:** 1. \( ^{0}_{-1}\beta \) 2. \( ^{4}_{2}\alpha \) 3. \( ^{0}_{1}\beta \) 4. \( ^{1}_{0}n \) 5. \( ^{1}_{1}p \) Use these particles to balance the given nuclear equations by ensuring that both the total mass numbers and atomic numbers remain consistent on both sides of the equation.
Expert Solution
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Nuclear reaction :

It is a type of reaction in which two or more nuclei collide or a subatomic particles collide with nucleus to produce a new atoms or new nuclide , is called nuclear reaction.

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