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Module 3.03 Periodic Trends
18

Module 3.03 Periodic Trends. Periodic Table To Review: Periods – rows of the periodic table Groups – columns of the period table.

Jan 21, 2016

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Page 1: Module 3.03 Periodic Trends. Periodic Table To Review: Periods – rows of the periodic table Groups – columns of the period table.

Module 3.03

Periodic Trends

Page 2: Module 3.03 Periodic Trends. Periodic Table To Review: Periods – rows of the periodic table Groups – columns of the period table.

Periodic Table

To Review:

• Periods – rows of the periodic table

• Groups – columns of the period table

Page 3: Module 3.03 Periodic Trends. Periodic Table To Review: Periods – rows of the periodic table Groups – columns of the period table.

Periodic Table

Page 4: Module 3.03 Periodic Trends. Periodic Table To Review: Periods – rows of the periodic table Groups – columns of the period table.

Trends

• Trends are useful in making predictions• Periodic table is arranged based on the

properties of the elements• Reading across each period and down each

group you will see repeated trends in properties

Page 5: Module 3.03 Periodic Trends. Periodic Table To Review: Periods – rows of the periodic table Groups – columns of the period table.

Effective Nuclear Charge

Effective Nuclear Charge – the charge (from the nucleus) felt by the valence electrons after the number of shielding electrons are taken into account.

Subtract the number of shielding (core) electrons from the total nuclear charge (number of protons) gives the effective nuclear charge.

Page 6: Module 3.03 Periodic Trends. Periodic Table To Review: Periods – rows of the periodic table Groups – columns of the period table.

Effective Nuclear Charge

Example:

Nitrogen7 protons (atomic number of 7)

-2 core electrons (1s2 electrons) --------

5 is the effective nuclear charge

Each of the valence electrons in nitrogen feels an effective nuclear charge of about +5.

Page 7: Module 3.03 Periodic Trends. Periodic Table To Review: Periods – rows of the periodic table Groups – columns of the period table.

Effective Nuclear Charge

Across a Period:The effective nuclear charge felt by an

atom’s valence electrons increases by one for each element from left to right in a period

Down a Group:The effective nuclear charge felt by an

atom’s valence electrons stays constant for each element going down a group

Page 8: Module 3.03 Periodic Trends. Periodic Table To Review: Periods – rows of the periodic table Groups – columns of the period table.

Atomic Radius

Atomic Radius – half the distance between the centers of two atoms that are bonded together.

Page 9: Module 3.03 Periodic Trends. Periodic Table To Review: Periods – rows of the periodic table Groups – columns of the period table.

Atomic Radius

Across a Period:There is a gradual decrease in atomic

radii from left to right across a period.

Down a Group:There is a general increase in atomic

radii going down each group on the periodic table.

Page 10: Module 3.03 Periodic Trends. Periodic Table To Review: Periods – rows of the periodic table Groups – columns of the period table.

Atomic Radius

Page 11: Module 3.03 Periodic Trends. Periodic Table To Review: Periods – rows of the periodic table Groups – columns of the period table.

Ionization Energy

Ionization energy – energy required to remove on electron from an element, resulting in a positive ion.

Elements with a lower effective nuclear charge felt by their electrons will give up an electron easier than other elements.

Page 12: Module 3.03 Periodic Trends. Periodic Table To Review: Periods – rows of the periodic table Groups – columns of the period table.

Ionization Energy

Across a Period:Ionization energy has a general

increase for elements across a period from left to right.

Down a Group:Ionization energy of elements

decreases going down a group because the atomic radius of the atoms increases.

Page 13: Module 3.03 Periodic Trends. Periodic Table To Review: Periods – rows of the periodic table Groups – columns of the period table.

Ionic radius

Ionic radius – ½ the diameter of an ion.

Note: Metals naturally form cations (positive ions) by losing one or more electrons. Nonmetals naturally form anions (negative ions) by gaining one or more electrons.

Page 14: Module 3.03 Periodic Trends. Periodic Table To Review: Periods – rows of the periodic table Groups – columns of the period table.

Atomic Radius vs Ionic Radius

Page 15: Module 3.03 Periodic Trends. Periodic Table To Review: Periods – rows of the periodic table Groups – columns of the period table.

Ionic Radius

Across a Period:Within each period, the metals at the left

form cations and the nonmetals at the right form anions. There is a decrease in the ionic radii of the cations from left to right and a decrease in the ionic radii of the anions from left to right.

Down a Group:Ionic radii increase down a group, following

the same trend as atomic radii.

Page 16: Module 3.03 Periodic Trends. Periodic Table To Review: Periods – rows of the periodic table Groups – columns of the period table.

Electronegativity

Electronegativity – measure of the attraction of an atom for the electrons in a chemical bond.

Page 17: Module 3.03 Periodic Trends. Periodic Table To Review: Periods – rows of the periodic table Groups – columns of the period table.

Electronegativity

Across a Period:Electronegativity increases from left to right

across a period because of the effective nuclear charge.

Down a Group:Electronegativity decreases down a group as

a result of a greater atomic radius.

Page 18: Module 3.03 Periodic Trends. Periodic Table To Review: Periods – rows of the periodic table Groups – columns of the period table.

Module 3.03

Periodic Trends