Classification of the Elements Objectives: AHSGE Reading 4.3 Discern organizational patterns. Other AOD C.3.2 Recognize periodic trends of elements, including.

Slides:

Advertisements

Similar presentations

Periodicity Objectives:

Advertisements

Electron Configuration and Orbital Diagrams

Electron Configuration

The Periodic Table. The Big Questions Who developed the first modern periodic table? How did he organize it, and how does this differ from the organization.

Electron Configurations Write the orbital type and energy level with superscripts for the number of electrons they contain.

Advanced Higher Chemistry Unit 1 Writing electronic structures.

Chemistry 1d - Students know how to use the periodic table to determine the number of electrons available for bonding.

The Periodic Table Chapter 6.

The Modern Periodic Table

Electrons in Atoms Electron Configuration Orbital Notation

Section 6.1 Development of the Modern Periodic Table

The Periodic Table and Periodic Law

Unit 4: Periodic Table & Periodic Trends

Classification of the Elements

Section: Electron Configurations and Periodic Trends

The Periodic Table Trends - Pg Bonds – Pg 334.

The Periodic Table and Periodic Law Objectives: AHSGE Reading 4.3 Discern organizational patterns. Other AOD C.3.2 Recognize periodic trends of elements,

Standard: 1c Articles: 160 Mastering Concepts: 174 (41-53) Practice Problems: 162(7-9) Homework Cornell Notes: 6.2 Section Assessment: 162 (10-13) Labs:

Click a hyperlink or folder tab to view the corresponding slides.

CHEMISTRY Matter and Change

Section 11.4 Electron Configurations and Atomic Properties 1.To understand how the principal energy levels fill with electrons in atoms beyond hydrogen.

The Periodic Table & Periodic Law

Chapter 6 The Periodic Table and Periodic Law. I. History of the Periodic Table A. Just a list In the late 1790s, there were only 23 known elements The.

Electron Configuration Na: 1s 2 2s 2 2p 6 3s 1. Electron Movement  Electrons orbit the nucleus of an atom in a cloud.  Electrons do not orbit in a sphere.

Electron Configuration Na: 1s 2 2s 2 2p 6 3s 1 Na: [Ne] 3s 1.

Electron Configuration Na: 1s 2 2s 2 2p 6 3s 1 Na: [Ne] 3s 1.

Electron Configuration classroom.sdmesa.edu/ssaidane/.../PowerPoint/ElectronConfigura tion.ppt.

Chemistry Seating Arrangement 1 st Period Front Board Mr. Trujillo True-he-yo See seating chart at front of the room.

Warm Up: November 1.Write the electron configurations for magnesium and calcium. 2. What do these configurations have in common? 3.Where are these two.

Writing Electron Configurations. Ok...let’s simplify this. Every atom has a nucleus. In that nucleus we have protons (positive charge) and neutrons (no.

Section 11.4 Electron Configurations and Atomic Properties 1.To understand how the principal energy levels fill with electrons in atoms beyond hydrogen.

Electron Configuration Na: 1s 2 2s 2 2p 6 3s 1 Na: [Ne] 3s 1.

1 Electron Configuration Na: 1s 2 2s 2 2p 6 3s 1 Na: [Ne] 3s 1 classroom.sdmesa.edu/ssaidane/Docs%20.../ElectronConfiguration.ppt.

The Four Quantum Numbers In the quantum mechanical model of the atom, each electron is described by four quantum numbers, and no two electrons in an atom.

Jeopardy start Electron Configurations Misc. Structure of Periodic Table.

Reading the Periodic Table Objectives: 1. Explain why elements in a group have similar properties. 2. Identify the four blocks of the periodic table. Key.

Thursday October 11, 2012 (Review of the Structure of the Periodic Table; WS – The Periodic Table)

The Periodic Table and Periodic Law Chapter 6. History of the Periodic Table’s Development Late 1790s: Lavoisier compiled a list of the 23 known elements.

Use the Periodic Table to complete the table: Electron Config. Symbol Column Row 1s 2 2s 2 2p 6 3s 1 1s 2 2s 2 2p 6 3s 2 1s 2 2s 2 2p 1 1s 2 2s 2 2p 6.

Periodic Characteristics Valence electrons determine chemical & physical properties of the elements Valence electrons – the electrons in the outermost.

Electron Configuration!. s, p, d, and f The different sections of the Periodic Table are very important in understanding Electron Configuration. There.

*How did Moseley arrange the periodic table?

The Periodic Table and Periodic Law Chapter 6 1. History of the Periodic Table’s Development In the 1700s, Lavoisier compiled a list of all the known.

Electron Orbital Diagrams

Metallic Bonds and Properties of Metals AHSGE Reading 2.3 Determine cause and effect. AHSGE Reading 4.3 Discern organizational patterns. Other AOD C.3.2.

I II III Periodic Table of the Elements.  1700’s – about 30 elements identified  Antoine Lavoisier Early Development of P.T. Antoine Lavoisier's Traité.

Electron Configurations. Where are the electrons? Do they exist in orbits like our planets? NO! The Bohr model is a useful representation but it doesn’t.

Bellringer Write the electron configuration, orbital notation, and electron dot structure for both Na and Cl: NaCl Electron Configuration: Orbital Notation:

The Periodic Table Chapter 5. Dmitri Mendeleev Dmitri Mendeleev developed the periodic table in 1869 Dmitri Mendeleev developed the periodic table in.

Within an energy level (n = 1, 2, 3, 4…), there exists n types of orbitals and n 2 sublevels. nOrbital types One s-orbital Three p-orbitals One s-orbital.

Unit 3-1 The Periodic Table and Periodic Law Development of the Modern Periodic Table Classification of the Elements Periodic Trends s, p, d, & f-block.

Chapter 6 The Periodic Table and Periodic Law. Development of the Modern Periodic Table Modern Periodic Table Periodic law – states that there is a periodic.

Overview of the Periodic Table.  First periodic table  Elements were originally arranged in rows by ATOMIC MASS  He noticed that when arranged.

Elements are organized into different blocks in the periodic table according to their electron configurations. Section 2: Classification of the Elements.

Elements are organized into different blocks in the periodic table according to their electron configurations. Section 2: Classification of the Elements.

The Periodic Table Chapter 3. Introduction Mendeleev’s periodic table organised the elements on the basis of patterns of chemical properties and behaviour.

The Periodic Table Bell Ringer – turn in Define the following: 1.Periods – 2.Groups/Families – Name 2 elements in the following classifications:

Lecture 27 Periodic Table Ozgur Unal 1.  Try to identify the periodicity in the musical notes. 2.

Metals, Nonmetals, and Metalloids: 1 Metals, Nonmetals, and Metalloids 2.

Classifying the Elements 6.2

8.2 Families and Periods of the Periodic Table

Classifying the Elements

Section 2: Classification of the Elements

WHAT THE HECK DO I NEED TO BE ABLE TO DO?

Valence Electrons Def: the electrons in an atom’s outermost orbitals (usually the highest principal energy level) Write the noble-gas configurations for:

WHAT THE HECK DO I NEED TO BE ABLE TO DO?

Valence Electrons Def: the electrons in an atom’s outermost orbitals (usually the highest principal energy level) Write the noble-gas configurations for:

Periodic Table: Periods: Are the horizontal rows on the

Periodic Table Families and Patterns.

Presentation transcript:

Classification of the Elements Objectives: AHSGE Reading 4.3 Discern organizational patterns. Other AOD C.3.2 Recognize periodic trends of elements, including the number of valence electrons, atomic size, and reactivity.

Organizing the Elements by Electron Configuration We know valence electron configurations of the group A elements. Now let’s look at valence electrons and periods. Write the noble gas configurations of the group 1A elements straight down in a column. What is the 1 st trend you notice? What other trend do you see?

Organizing the Elements by Electron Configuration (continued) The energy level of the valence electrons is the same as the period number the element is found in! So in what energy level would the valence electrons for gallium (Ga) be found? What about titanium (Ti)?

s-block elements have valence electrons in the s orbital. What groups would this be? p-block elements are found in groups 3A- 8A. This block’s elements have filled or partially filled p orbitals. How many groups on the periodic table are in the p-block? Why is this so? s-, p-, d-, and f- Block Elements

s-, p-, d-, and f- Block Elements (continued) The first period contains NO p-block elements. The first p-block element is boron. What period is boron in? Why are there no p-block elements in the first period? Answer: The 1 st period elements only have a 1s orbital.

s-, p-, d-, and f- Block Elements (continued) d-block elements are the transition metals. USUALLY contain a filled outermost s- orbital of energy level n, and a filled or partially filled d-orbital of energy level n-1. Example: Scandium (Sc) is in period ___. Sc has a filled 4s orbital and a partially filled 3d orbital.

s-, p-, d-, and f- Block Elements (continued) So what s-orbital and what p-orbital would be filled or partially filled for tungsten (W)? Answer: 6s and 5p. How many d orbitals are there? Answer: 5 How many electrons can those d orbitals hold? Answer: 10

s-, p-, d-, and f- Block Elements (continued) How many “groups” (columns) does the d-block span on the periodic table? f-block elements are the inner transition metals. Characterized by a filled or partially filled outermost s-orbital, and filled or partially filled 4f or 5f orbital. f-orbitals do not fill in a predictable manner.

Overview/Review 1.Moving DOWN through the periods, the principal energy level increases. 2.As principal energy level increases, so does the number of energy sublevels containing electrons. 3.Period 1 has only s-block elements. 4.Periods 2 and 3 have s- and p-orbitals. 5.Periods 4 and 5 have s-, p- and d- orbitals. 6.Periods 6 and 7 have ??????

Assignments 1.Practice Problems, p.162 (7-9) 2.In which block of the periodic table would each of the elements identified in #9 be found? 3.Complete Study Guide for Content Mastery, pp (16-26).