(a)
Interpretation:
The radioactive isotope from the list has to be indicated.
Concept Introduction:
Nuclear stability means that the nucleus is stable meaning that it does not spontaneously emit any kind of radioactivity.
Nuclear stability can be explained based on neutron proton ratio (n/p) in the nucleus.
For a stable atoms having low
General rules for predicting the nuclear stability is given below,
- If the nucleus contains 2, 8,20,50,82 or 126 protons or neutrons, then they are generally considered as stable than the nuclei that do not possess these numbers.
- If the nuclei has even number of both protons and neutrons, then they are considered as stable as those with odd number of these particles.
- All
isotopes of elements with atomic number higher than 83 are radioactive.
Stable nucleus is non-radioactive and unstable nucleus is radioactive.
(b)
Interpretation:
The radioactive isotope from the list has to be indicated.
Concept Introduction:
Nuclear stability means that the nucleus is stable meaning that it does not spontaneously emit any kind of radioactivity.
Nuclear stability can be explained based on neutron proton ratio (n/p) in the nucleus.
For a stable atoms having low atomic number, n/p ratio is close to 1. When atomic number increases n/p becomes greater than 1.
General rules for predicting the nuclear stability is given below,
- If the nucleus contains 2, 8,20,50,82 or 126 protons or neutrons, then they are generally considered as stable than the nuclei that do not possess these numbers.
- If the nuclei has even number of both protons and neutrons, then they are considered as stable as those with odd number of these particles.
- All isotopes of elements with atomic number higher than 83 are radioactive.
Stable nucleus is non-radioactive and unstable nucleus is radioactive.
(c)
Interpretation:
The radioactive isotope from the list has to be indicated.
Concept Introduction:
Nuclear stability means that the nucleus is stable meaning that it does not spontaneously emit any kind of radioactivity.
Nuclear stability can be explained based on neutron proton ratio (n/p) in the nucleus.
For a stable atoms having low atomic number, n/p ratio is close to 1. When atomic number increases n/p becomes greater than 1.
General rules for predicting the nuclear stability is given below,
- If the nucleus contains 2, 8,20,50,82 or 126 protons or neutrons, then they are generally considered as stable than the nuclei that do not possess these numbers.
- If the nuclei has even number of both protons and neutrons, then they are considered as stable as those with odd number of these particles.
- All isotopes of elements with atomic number higher than 83 are radioactive.
Stable nucleus is non-radioactive and unstable nucleus is radioactive.
(d)
Interpretation:
The radioactive isotope from the list has to be indicated.
Concept Introduction:
Nuclear stability means that the nucleus is stable meaning that it does not spontaneously emit any kind of radioactivity.
Nuclear stability can be explained based on neutron proton ratio (n/p) in the nucleus.
For a stable atoms having low atomic number, n/p ratio is close to 1. When atomic number increases n/p becomes greater than 1.
General rules for predicting the nuclear stability is given below,
- If the nucleus contains 2, 8,20,50,82 or 126 protons or neutrons, then they are generally considered as stable than the nuclei that do not possess these numbers.
- If the nuclei has even number of both protons and neutrons, then they are considered as stable as those with odd number of these particles.
- All isotopes of elements with atomic number higher than 83 are radioactive.
Stable nucleus is non-radioactive and unstable nucleus is radioactive.
(e)
Interpretation:
The radioactive isotope from the list has to be indicated.
Concept Introduction:
Nuclear stability means that the nucleus is stable meaning that it does not spontaneously emit any kind of radioactivity.
Nuclear stability can be explained based on neutron proton ratio (n/p) in the nucleus.
For a stable atoms having low atomic number, n/p ratio is close to 1. When atomic number increases n/p becomes greater than 1.
General rules for predicting the nuclear stability is given below,
- If the nucleus contains 2, 8,20,50,82 or 126 protons or neutrons, then they are generally considered as stable than the nuclei that do not possess these numbers.
- If the nuclei has even number of both protons and neutrons, then they are considered as stable as those with odd number of these particles.
- All isotopes of elements with atomic number higher than 83 are radioactive.
Stable nucleus is non-radioactive and unstable nucleus is radioactive.
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Chapter 21 Solutions
Connect 1 Semester Access Card for General Chemistry: The Essential Concepts
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