IIIIII III. Periodic Trends (p. 187-194) Ch. 6 - The Periodic Table.

Slides:

Advertisements

Similar presentations

Unit 5 Notes p. 3-4 January 6. Jan 6 - Objectives You will be able to define – Atomic radius – Electronegativity – Ionization Energy – Electron Affinity.

Advertisements

Electron Configuration and Periodic Properties

Section 6.3 Periodic Trends

Unit 3: Electrons and the Periodic Table

IIIIII Periodic Trends The Periodic Table. Periodic Law zWhen elements are arranged in order of increasing atomic #, elements with similar properties.

IIIIII Periodic Trends Ch. 5 - The Periodic Table.

IIIIII III. Periodic Trends (p. 33) Ch The Periodic Table.

Periodic Table Trends & Definitions. How to read the Periodic Table 6 C Carbon Atomic Number Elemental Symbol Elemental Name Atomic Mass.

IIIIII The Periodic Trend. ysize of atom Atomic Radius.

IIIIII III. Periodic Trends (p ) Ch. 6 - The Periodic Table.

Section 6.3 Periodic Trends

III. Periodic Trends (p )

Periodic Trends.

IIIIII Ch. 6 - The Periodic Table & Periodic Law I. Development of the Modern Periodic Table (p )

IIIIII Periodic Trends The Periodic Table. 1.Atomic Radius y½ the distance between two identical atoms bonded together © 1998 LOGAL 2.Ionization Energy.

IIIIII Ch. 5 - The Periodic Table C. Johannesson.

IIIIII Periodic Trends The Periodic Table. A. Periodic Law zWhen elements are arranged in order of increasing atomic #, elements with similar properties.

Periodic Table of the Elements yCopyright © 2010 Ryan P. Murphy.

IIIIII Periodic Trends The Periodic Table. Periodic Law zWhen elements are arranged in order of increasing __________ __________, elements with similar.

 When elements are arranged in order of increasing atomic #, elements with similar properties appear at regular intervals.

IIIIII Unit 5 AP Chemistry Periodic Table Trends.

III. Periodic Trends (p )

IIIIII The Periodic Table I. History. A. Mendeleev zDmitri Mendeleev (1869, Russian) yOrganized elements by increasing atomic mass. yElements with similar.

IIIIII III. Periodic Trends (p ) Ch. 5 - The Periodic Table.

The Periodic Table History. zMemorize the periodic table by MondayMemorize zHistory of the periodic tableHistory.

The Periodic Table I. Periodic Trends.

IIIIII 6.3 Periodic Trends (p ) Ch. 6 - The Periodic Table.

Periodic Trends.

IIIIII III. Periodic Trends (p ) Ch. 5 - The Periodic Table.

Periodic Law History of the Periodic Table Periodic Trends.

I II III Periodic Trends. Valence Electrons  Electrons available to be lost, gained, or shared in the formation of chemical compounds  Outer energy.

Periodic Definitions & Trends Table of Contents Lecture/Lab/Activity Date Pg# 14. The History of Atomic Models 9/14/ Structure of the Atom 9/15/10.

IIIIII Ch. 6 - The Periodic Table & Periodic Law I. Development of the Modern Periodic Table (p )

IIIIII Unit 3: Periodicity: I. History of the Periodic Table.

Periodic Trends. Periodic Law zWhen elements are arranged in order of increasing atomic #, elements with similar properties appear at regular intervals.

IIIIII The Periodic Table. Chemical Reactivity zAlkali Metals zAlkaline Earth Metals zTransition Metals zHalogens zNoble Gases.

IIIIII Periodic Trends Ch. 5 - The Periodic Table.

Periodic Trends: All Arrows point to increases

IIIIII The Periodic Table & Periodic Law I. Development of the Modern Periodic Table.

IIIIII C. Johannesson III. Periodic Trends (p ) Ch. 5 - The Periodic Table.

Periodic Trends. Predicting Periodic Trends A number of physical and chemical properties of elements can be predicted from their position in the periodic.

IIIIII Ch. 6 - The Periodic Table & Periodic Law I. Development of the Modern Periodic Table (p )

Chapter 5- The Periodic Law 5.1-History of the Periodic Table 5.2-Electron Configuration & the Periodic Table 5.3-Electron Configuration & Periodic Properties.

Lesson outline Atomic size (radius) trends Ionization energy trends Ions Ions Electron affinity and electronegativity activity Electron affinity trends.

IIIIII Periodic Trends The Periodic Table. Periodic Law zWhen elements are arranged in order of increasing atomic #, elements with similar properties.

IIIIII Periodicity – the tendency to recur at regular intervals. For example: the return of the full moon every 28 days. Periodic Table & Trends.

IIIIII II. Periodic Trends Ch. 4 - The Periodic Table.

IIIIII Unit 3: Electrons and the Periodic Table CP Chemistry Periodic Table Trends.

C. Johannesson III. Periodic Trends Ch. 6 - The Periodic Table.

IIIIII C. Johannesson III. Periodic Trends (p ) Ch. 5 - The Periodic Table.

Electron Configuration and Periodic Properties

The Periodic Table Periodic Trends.

Suggested Reading Pages Section 5-3

Write the Complete Electron Configuration for:

Trends of the Periodic Table

The Periodic Table Periodic Trends.

I. History of the Periodic Table

III. Periodic Trends (p )

III. Periodic Trends (p )

III. Periodic Trends (p )

Ch. 4 - The Periodic Table III. Periodic Trends.

Ch. 4 - The Periodic Table III. Periodic Trends.

III. Periodic Trends (p )

III. Periodic Trends (p )

The Periodic Table III. Periodic Trends.

A. Periodic Law When elements are arranged in order of increasing atomic #, elements with similar properties appear at regular intervals.

III. Periodic Trends (p )

III. Periodic Trends (p )

III. Periodic Trends (p )

Ch. 5 - The Periodic Table I. History (p )

Presentation transcript:

IIIIII III. Periodic Trends (p ) Ch. 6 - The Periodic Table

A. Periodic Law zWhen elements are arranged in order of increasing atomic #, elements with similar properties appear at regular intervals.

B. Chemical Reactivity zFamilies ySimilar valence e - within a group result in similar chemical properties

zAtomic Radius ysize of atom © 1998 LOGAL zIonization Energy yEnergy required to remove an e - from a neutral atom © 1998 LOGAL zElectronegativity C. Other Properties

zAtomic Radius = ½ the distance between two identical bonded atoms 1. Atomic Radius

zAtomic Radius yIncreases to the LEFT and DOWN 1. Atomic Radius

zWhy larger going down? yHigher energy levels have larger orbitals yShielding - core e - block the attraction between the nucleus and the valence e - zWhy smaller to the right? yIncreased nuclear charge without additional shielding pulls e - in tighter 1. Atomic Radius

zFirst Ionization Energy = Energy required to remove one e - from a neutral atom. 2. Ionization Energy K Na Li Ar Ne He

zFirst Ionization Energy yIncreases UP and to the RIGHT 2. Ionization Energy

zWhy opposite of atomic radius? yIn small atoms, e - are close to the nucleus where the attraction is stronger zWhy small jumps within each group? yStable e - configurations dont want to lose e - 2. Ionization Energy

zSuccessive Ionization Energies yMg1st I.E.736 kJ 2nd I.E.1,445 kJ Core e - 3rd I.E.7,730 kJ yLarge jump in I.E. occurs when a CORE e - is removed. 2. Ionization Energy

yAl1st I.E.577 kJ 2nd I.E.1,815 kJ 3rd I.E.2,740 kJ Core e - 4th I.E.11,600 kJ zSuccessive Ionization Energies yLarge jump in I.E. occurs when a CORE e - is removed. 2. Ionization Energy

3. Electronegativity zThe measure of the ability of an atom in a chemical compound to attract electrons zGiven a value between 0 and 4, 4 being the highest

zWhy increase as you move right? yMore valence electrons, need less to fill outer shell zWhy increase as you move up? ySmaller electron cloud, more pull by + nucleus 3. Electronegativity

zWhich atom has the larger radius? yBe orBa yCa orBr Examples

zWhich atom has the higher 1st I.E.? yNorBi yBa orNe Examples

zWhich element has the higher electronegativity? yCl or F yBe or Ca Examples