Complete the notations for the following processes.
(a)
(b)
(c)
(d)
(e)
(f)
(g)
(a)
To complete: The notation of the decay process for magnesium, if the alpha particles are emitted in the decay process as,
Answer to Problem 48SP
Solution:
Explanation of Solution
Introduction:
The decay process equation is written as,
The notation for decay process is written as
The atomic number and mass number in the decay equation of the reactants and products are conserved.
That is,
Explanation:
Write the decay equation for
Here,
The sum of the mass number of the reactants and products are equal. Hence,
Solve for
The sum of the atomic number of the reactants and products are equal. Hence,
Solve for
The sodium element has atomic number
Thus, rewrite the notation.
Substitute
Conclusion:
Therefore, the notations of the process are
(b)
To complete: The notation of the decay process for magnesium of the mass number
Answer to Problem 48SP
Solution:
Explanation of Solution
Introduction:
The decay process equation is written as,
The notation for decay process is written as
The atomic number and mass number in the decay equation of the reactants and products are conserved.
That is,
Explanation:
Write the decay equation for
Here,
The sum of the mass number of the reactants and products are equal. Hence,
Solve for
The sum of the atomic number of the reactants and products are equal. Hence,
Solve for
The magnesium element has an atomic number thatequals to
Rewrite the notation.
Substitute
Conclusion:
Therefore, the notations of the process are
(c)
To complete: The notation of the decay process for argon of mass number equals to
Answer to Problem 48SP
Solution:
Explanation of Solution
Introduction:
The decay process equation is written as,
The notation for decay process is written as
The atomic number and mass number in the decay equation of the reactants and products are conserved.
That is,
Explanation:
Write the decay equation for
Here,
The sum of the mass number of the reactants and products are equal. Hence,
Solve for
The sum of the atomic number of the reactants and products are equal. Hence,
Solve for
The potassium element has atomic number
Rewrite the notation.
Substitute
Conclusion:
Therefore, the notations of the process are
(d)
To complete: The notation of the decay process forcarbon of the mass
Answer to Problem 48SP
Solution:
Explanation of Solution
Introduction:
The decay process equation is written as,
The notation for decay process is written as
The atomic number and mass number in the decay equation of the reactants and products are conserved.
That is,
Explanation:
Write the decay equation for
Here,
The sum of the mass number of the reactants and products are equal. Hence,
Solve for
The sum of the atomic number of the reactants and products are equal. Hence,
Solve for
The nitrogen element has atomic number
Rewrite the notation.
Substitute
Conclusion:
Therefore, the notations of the process are
(e)
To complete: The notation of the decay process for tellurium
Answer to Problem 48SP
Solution:
Explanation of Solution
Introduction:
The decay process equation is written as,
The notation for decay process is written as
The atomic number and mass number in the decay equation of the reactants and products are conserved.
That is,
Explanation:
Write the decay equation for
The sum of the mass number of the reactants and products are equal. Hence,
Solve for
The sum of the atomic number of the reactants and products are equal. Hence,
Solve for
The iodine element has atomic number
Rewrite the notation.
Substitute
Conclusion:
Therefore, the notations of the process are
(f)
To complete: The notation of the decay process formanganese of mass number
Answer to Problem 48SP
Solution:
Explanation of Solution
Introduction:
The decay process equation is written as,
The notation for decay process is written as
The atomic number and mass number in the decay equation of the reactants and products are conserved.
That is,
Explanation:
Write the decay equation for
The sum of the mass number of the reactants and products are equal. Hence,
Solve for
The sum of the atomic number of the reactants and products are equal. Hence,
The manganese element has atomic number
Rewrite the notation.
Substitute
Conclusion:
Therefore, the notations of the process are
(g)
To complete: The notation of the decay process forcobalt of mass number
Answer to Problem 48SP
Solution:
Explanation of Solution
Introduction:
The decay process equation is written as,
The notation for decay process is written as
The atomic number and mass number in the decay equation of the reactants and products are conserved.
That is,
Explanation:
Write the decay equation for
The sum of the mass number of the reactants and products are equal. Hence,
Solve for
The sum of the atomic number of the reactants and products are equal. Hence,
Solve for
The manganese element has atomic number
Rewrite the notation.
Substitute
Conclusion:
Therefore, the notations of the process are
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