(a) Interpretation: To write the general valence configuration of the nitrogen, Z=7. Concept Introduction: When the electrons are arranged in the increasing order of energy in the orbitals of an atom is known as electronic configuration of that atom. Atomic number of an atom in its neutral state is equal to the number of electrons which is unique for every element. On the basis of group of the element, one can identify the general valence configuration.
(a) Interpretation: To write the general valence configuration of the nitrogen, Z=7. Concept Introduction: When the electrons are arranged in the increasing order of energy in the orbitals of an atom is known as electronic configuration of that atom. Atomic number of an atom in its neutral state is equal to the number of electrons which is unique for every element. On the basis of group of the element, one can identify the general valence configuration.
Solution Summary: The author explains how to write the general valence configuration of the nitrogen, Z=7.
Definition Definition Number of protons in the nucleus of an atom. It uniquely identifies an element, as the number of protons determines the element's properties. The periodic table of elements is arranged based on increasing atomic numbers, allowing scientists to easily locate and study elements.
Chapter 11, Problem 112AP
Interpretation Introduction
(a)
Interpretation:
To write the general valence configuration of the nitrogen, Z=7.
Concept Introduction:
When the electrons are arranged in the increasing order of energy in the orbitals of an atom is known as electronic configuration of that atom. Atomic number of an atom in its neutral state is equal to the number of electrons which is unique for every element. On the basis of group of the element, one can identify the general valence configuration.
Interpretation Introduction
(b)
Interpretation:
To write the general valence configuration of the francium, Z=87.
Concept Introduction:
When the electrons are arranged in the increasing order of energy in the orbitals of an atom is known as electronic configuration of that atom. Atomic number of an atom in its neutral state is equal to the number of electrons which is unique for every element. On the basis of group of the element, one can identify the general valence configuration.
Interpretation Introduction
(c)
Interpretation:
To write the general valence configuration of the chlorine, Z=17.
Concept Introduction:
When the electrons are arranged in the increasing order of energy in the orbitals of an atom is known as electronic configuration of that atom. Atomic number of an atom in its neutral state is equal to the number of electrons which is unique for every element. On the basis of group of the element, one can identify the general valence configuration.
Interpretation Introduction
(d)
Interpretation:
To write the general valence configuration of the selenium, Z=34.
Concept Introduction:
When the electrons are arranged in the increasing order of energy in the orbitals of an atom is known as electronic configuration of that atom. Atomic number of an atom in its neutral state is equal to the number of electrons which is unique for every element. On the basis of group of the element, one can identify the general valence configuration.
Interpretation Introduction
(e)
Interpretation:
To write the general valence configuration of the magnesium, Z=12.
Concept Introduction:
When the electrons are arranged in the increasing order of energy in the orbitals of an atom is known as electronic configuration of that atom. Atomic number of an atom in its neutral state is equal to the number of electrons which is unique for every element. On the basis of group of the element, one can identify the general valence configuration.
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