Concept explainers
(a)
Interpretation: The following radioactive decay series should be full filled by identifying the exact radioactive particle.
Concept Introduction:
Nuclear equation :- A nuclear reaction is said to be balanced nuclear equation when the sums of the superscript and the sums of the subscripts must be equal on each equation.
-
Emitting particle showing by the radioactive decay species
- α=He4 2 Alpha particle
- β= e0 -1 Beta - particle
- n10 Neutron
- H11-protium
To identify: full filled the gap by the radioactive particle.
(b)
Interpretation: The following radioactive decay series should be full filled by identifying the exact radioactive particle.
Concept Introduction:
- Nuclear equation:
- A nuclear reaction is said to be balanced nuclear equation when the sums of the superscript and the sums of the subscripts must be equal on each equation.
-
Emitting particle showing by the radioactive decay species
- α=He4 2 Alpha particle
- β= e0 -1 Beta - particle
- n10 Neutron
- H11-protium
To identify: full filled the gap by the radioactive particle.
(c)
Interpretation: The following radioactive decay series should be full filled by identifying the exact radioactive particle.
Concept Introduction:
- Nuclear equation:
- A nuclear reaction is said to be balanced nuclear equation when the sums of the superscript and the sums of the subscripts must be equal on each equation.
-
Emitting particle showing by the radioactive decay species
- α=He4 2 Alpha particle
- β= e0 -1 Beta - particle
- n10 Neutron
- H11-protium
To identify: full filled the gap by the radioactive particle.

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Chapter 19 Solutions
ALEKS 360; 18WKS F/ GEN. CHEMISTRY >I<
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