An Introduction to Physical Science
An Introduction to Physical Science
14th Edition
ISBN: 9781305079137
Author: James Shipman, Jerry D. Wilson, Charles A. Higgins, Omar Torres
Publisher: Cengage Learning
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Nuclear interactions
In nature, there are certain rules and standards for an interaction. These interactions are universally accepted. There are four types of interactions:
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Chapter 10, Problem 23E

(a)

To determine

The complete nuclear reaction equation, H24e+N714O817+___ .

(a)

Expert Solution
Check Mark

Answer to Problem 23E

The complete nuclear reaction equation is H24e+N714O817+H11 .

Explanation of Solution

Total mass number of reactant is 4+14=18 . Mass number of product is shown as 17 . According to conservation of mass number, mass number of reactant is equal to mass number of product. Missing atom must have a mass number of 1817=1 .

Total atomic number of reactant is 7+2=9 and shown atomic number of product is 8 . According to conservation of atomic number, the atomic number of reactant and product must be equal. Missing atom must have atomic number of 98=1 .

The atom with atomic number 1 and mass number 1 is Hydrogen atom.

Conclusion:

Therefore, the complete nuclear reaction equation is H24e+N714O817+H11 .

(b)

To determine

The complete nucler reaction equation,

H24e+A1327lP1530+___

(b)

Expert Solution
Check Mark

Answer to Problem 23E

The complete nuclear reaction equation H24e+A1327lP1530+n01 .

Explanation of Solution

Total mass number of reactant is 27+4=31 . Mass number of product is shown as 30 . According to conservation of mass number, mass number of reactant is equal to mass number of product. Missing atom must have a mass number of 3130=1 .

Total atomic number of reactant is 13+2=15 and shown atomic number of product is 15 . According to conservation of atomic number, the atomic number of reactant and product must be equal. Missing atom must have atomic number of 1515=0 .

Atomic number 0 and mass number 1 is assigned to neutrons, so there will be emission of 1 neutron in nuclear reaction.

Conclusion:

Therefore, the complete nuclear reaction equation H24e+A1327lP1530+n01 .

(c)

To determine

The complete nuclear reaction equation,

___+C2966uZ3067n+n01

(c)

Expert Solution
Check Mark

Answer to Problem 23E

The complete nuclear reaction equation is H12+C2966uZ3067n+n01 .

Explanation of Solution

Total mass number of reactant is shown as 66 . Total mass number of product is 67+1=68 . According to conservation of mass number, mass number of reactant is equal to mass number of product. Missing atom must have a mass number of 6866=2 .

Total atomic number of reactant is shown as 29 and total atomic number of product is 30+0=30 . According to conservation of atomic number, the atomic number of reactant and product must be equal. Missing atom must have atomic number of 3029=1 .

The atom with atomic number 1 and mass number 2 is Deuterium atom.

Conclusion:

Therefore, the complete nuclear reaction equation is H12+C2966uZ3067n+n01 .

(d)

To determine

The complete nuclear reaction equation,

n01+U92235X54138e+___+5n01

(d)

Expert Solution
Check Mark

Answer to Problem 23E

The complete nuclear reaction equation is n01+U92235X54138e+S3893r+5n01 .

Explanation of Solution

Total mass number of reactant is 1+235=236 . Mass number of product is shown as 138+5=143 . According to conservation of mass number, mass number of reactant is equal to mass number of product. Missing atom must have a mass number of 236143=93 .

Total atomic number of reactant is 0+92=92 and shown atomic number of product is 54+0=54 . According to conservation of atomic number, the atomic number of reactant and product must be equal. Missing atom must have atomic number of 9254=38 .

The atom with atomic number 38 and mass number 93 is isotope of stontium- 38 atom.

Conclusion:

Therefore, the complete nuclear reaction equation is n01+U92235X54138e+S3893r+5n01 .

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Chapter 10 Solutions

An Introduction to Physical Science

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