Chapter 8: Periodic Relationships Among the Elements PDF

Summary

This document covers the periodic properties of elements, including periodic trends in effective nuclear charge, sizes of atoms and ions, ionization energy, electron affinity, and metallic character.

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Chapter 8: Periodic Relationships Among the Elements
 Development of Periodic Table

Elements in the same
group generally have
similar chemical
properties.
Physical properties are
not necessarily similar,
however.

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Development of Periodic Table

Dmitri Mendeleev
and Lothar Meyer
independently
came to the same
conclusion about
how elements
should be
grouped.

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 Periodic Trends

In this chapter, we will rationalize observed
trends in

– Effective nuclear charge
– Sizes of atoms and ions.
– Ionization energy.
– Electron affinity.
– Metallic Character

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Structure of the atom
 Effective Nuclear Charge (Zeff)
In a many-electron atom, electrons are both attracted
to the nucleus and repelled by other electrons.
The nuclear charge that an electron experiences
depends on both factors.
Zeff Increses from left to right and bottom to top

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 Atomic radius tends to:
- increase from right to left across a row (due to decreasing Zeff).
- increase from top to bottom of a column (due to increasing value of n).
Sizes of Ions
Cations are smaller than
their parent atoms.
-The outermost electron
is removed and
repulsions between
electrons are reduced.

Anions are larger than
their parent atoms.
-Electrons are added
and repulsions between
electrons are increased.
 Sizes of Ions

In an isoelectronic series, ions have the same
number of electrons.
Ionic size decreases with an increasing nuclear
charge.

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 Bond Length

- Bond length is defined
by the distance
between the two
nuclei.
- The larger the radius,
the longer the distance
(bond length)

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 Ionization Energy

The ionization energy is the amount of
energy required to remove an electron
from the ground state of a gaseous atom or
ion.
– The first ionization energy is that energy
required to remove first electron.
– The second ionization energy is that energy
required to remove second electron, etc.

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 Ionization Energy
It requires more energy to remove each successive
electron.
When all valence electrons have been removed, the
ionization energy takes a quantum leap.

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Trends in First Ionization Energies

As one goes down a
column, less energy is
required to remove the
first electron.
– For atoms in the same
group, Zeff is essentially
the same, but the
valence electrons are
farther from the nucleus.

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 Trends in First Ionization Energies

Generally, as one goes
across a row, it gets
harder to remove an
electron.
– As you go from left to
right, Zeff increases.

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 Ionization Energy

- Removing second electron is harder than first
electron; requires more energy (I1