Concept explainers
Identify each of the following elements: (a) a halogen containing 53 electrons, (b) a radioactive noble gas with 86 protons, (c) a Group 6A element with 34 electrons, (d) an alkali metal that contains 11 electrons, (e) a Group 4A element that contains 82 electrons.
a)
Interpretation: The symbols for each atom to be identified.
Concept Introduction:
Conversion of atoms to moles:
Nuclear stability: The nucleus is composed of protons and neutrons. The strongest nuclear force binds the particles tightly. Though the protons repel each other due to no attraction between similar charges, possess short-range attractions made the attraction possible between proton and proton, proton and neutron, neutron and neutron.
The stability of any element is determined by the difference between columbic repulsion and the short-range attraction. If repulsion outweighs the attraction, the disintegration of nucleus occurs by producing the daughter nuclides. If the attractive forces prevail, the nucleus is stable.
Answer to Problem 2.77QP
Explanation of Solution
Identify the element.
The number of electron is equal to the number proton in the nucleus, thus from the periodic table atomic number
b)
Interpretation: The symbols for each atom to be identified.
Concept Introduction:
Conversion of atoms to moles:
Nuclear stability: The nucleus is composed of protons and neutrons. The strongest nuclear force binds the particles tightly. Though the protons repel each other due to no attraction between similar charges, possess short-range attractions made the attraction possible between proton and proton, proton and neutron, neutron and neutron.
The stability of any element is determined by the difference between coulombic repulsion and the short-range attraction. If repulsion outweighs the attraction, the disintegration of nucleus occurs by producing the daughter nuclides. If the attractive forces prevail, the nucleus is stable.
Answer to Problem 2.77QP
Explanation of Solution
Identify the element.
The number of electron is equal to the number proton in the nucleus. The number of protons is same as the atomic number of an element. From the periodic table atomic number
c)
Interpretation: The symbols for each atom to be identified.
Concept Introduction:
Conversion of atoms to moles:
Nuclear stability: The nucleus is composed of protons and neutrons. The strongest nuclear force binds the particles tightly. Though the protons repel each other due to no attraction between similar charges, possess short-range attractions made the attraction possible between proton and proton, proton and neutron, neutron and neutron.
The stability of any element is determined by the difference between columbic repulsion and the short-range attraction. If repulsion outweighs the attraction, the disintegration of nucleus occurs by producing the daughter nuclides. If the attractive forces prevail, the nucleus is stable.
Answer to Problem 2.77QP
Explanation of Solution
Identify the element.
The number of electron is equal to the number proton in the nucleus. The number of protons or the electrons is same as the atomic number of an element. From the periodic table atomic number
d)
Interpretation: The symbols for each atom to be identified.
Concept Introduction:
Conversion of atoms to moles:
Nuclear stability: The nucleus is composed of protons and neutrons. The strongest nuclear force binds the particles tightly. Though the protons repel each other due to no attraction between similar charges, possess short-range attractions made the attraction possible between proton and proton, proton and neutron, neutron and neutron.
The stability of any element is determined by the difference between columbic repulsion and the short-range attraction. If repulsion outweighs the attraction, the disintegration of nucleus occurs by producing the daughter nuclides. If the attractive forces prevail, the nucleus is stable.
Answer to Problem 2.77QP
Explanation of Solution
Identify the element.
The number of electron is equal to the number proton in the nucleus. The number of protons (or the electrons) is same as the atomic number of an element. From the periodic table atomic number
e)
Interpretation: The symbols for each atom to be identified.
Concept Introduction:
Conversion of atoms to moles:
Nuclear stability: The nucleus is composed of protons and neutrons. The strongest nuclear force binds the particles tightly. Though the protons repel each other due to no attraction between similar charges, possess short-range attractions made the attraction possible between proton and proton, proton and neutron, neutron and neutron.
The stability of any element is determined by the difference between coulombic repulsion and the short-range attraction. If repulsion outweighs the attraction, the disintegration of nucleus occurs by producing the daughter nuclides. If the attractive forces prevail, the nucleus is stable.
Answer to Problem 2.77QP
Explanation of Solution
Identify the element.
The number of electron is equal to the number proton in the nucleus. The number of protons or the electrons is same as the atomic number of an element. From the periodic table atomic number
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Chapter 2 Solutions
Chemistry: Atoms First - With Solutions and Access
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