The atom having larger atomic radius has to be selected among N a and C s Concept Introduction: Atomic radius is the distance between the atomic nucleus and outermost shell having electrons of an atom. From the atomic radius, the size of atoms can be visualized Down the group, the principal quantum number increases and thus the size of orbital also increases which results in the increase in atomic radii.
The atom having larger atomic radius has to be selected among N a and C s Concept Introduction: Atomic radius is the distance between the atomic nucleus and outermost shell having electrons of an atom. From the atomic radius, the size of atoms can be visualized Down the group, the principal quantum number increases and thus the size of orbital also increases which results in the increase in atomic radii.
Solution Summary: The author explains that the atom having larger atomic radius has to be selected among Na and Cs.
Interpretation: The atom having larger atomic radius has to be selected among Na and Cs
Concept Introduction:
Atomic radius is the distance between the atomic nucleus and outermost shell having electrons of an atom. From the atomic radius, the size of atoms can be visualized
Down the group, the principal quantum number increases and thus the size of orbital also increases which results in the increase in atomic radii.
(b)
Interpretation Introduction
Interpretation: The atom having larger atomic radius has to be selected among Be and Ba
Concept Introduction:
Atomic radius is the distance between the atomic nucleus and outermost shell having electrons of an atom. From the atomic radius, the size of atoms can be visualized
Down the group, the principal quantum number increases and thus the size of orbital also increases which results in the increase in atomic radii.
(c)
Interpretation Introduction
Interpretation: The atom having larger atomic radius has to be selected among N and Sb
Concept Introduction:
Atomic radius is the distance between the atomic nucleus and outermost shell having electrons of an atom. From the atomic radius, the size of atoms can be visualized
Down the group, the principal quantum number increases and thus the size of orbital also increases which results in the increase in atomic radii.
(d)
Interpretation Introduction
Interpretation: The atom having larger atomic radius has to be selected among F and Br
Concept Introduction:
Atomic radius is the distance between the atomic nucleus and outermost shell having electrons of an atom. From the atomic radius, the size of atoms can be visualized
Down the group, the principal quantum number increases and thus the size of orbital also increases which results in the increase in atomic radii.
(e)
Interpretation Introduction
Interpretation: The atom having larger atomic radius has to be selected among Ne and Xe
Concept Introduction:
Atomic radius is the distance between the atomic nucleus and outermost shell having electrons of an atom. From the atomic radius, the size of atoms can be visualized
Down the group, the principal quantum number increases and thus the size of orbital also increases which results in the increase in atomic radii.
Despite the expected decrease in atomic size, there is an unexpected drop in IE1 values between Groups 2A(2) and 3A(13) in Periods 2 through 4. Explain this pattern in terms of electron configurations and orbital energies.
What is the energy of a photon in joules when an electron of Li2+ moves from orbit n=2 to n=1?
In a plot of IE1 for the Period 3 elements , why do the values for elements in Groups 3A(13) and 6A(16) drop slightly below the generally increasing trend?