Starter S-44 A. What is Lithium’s electron configuration? B.What column of the periodic table is it in? C.What is Sodium’s electron configuration? D.What.

Slides:

Advertisements

Similar presentations

The Periodic Table and Periodic Law

Advertisements

Chapter 6 The Periodic Table.

Periodic Table and Trends

Chapter 6 – The Periodic Table

Chapter 6 Periodic Table and Periodic Law. The Periodic Table got its name because of the repeating pattern of chemical & physical properties. Mendeleev.

THE PERIODIC TABLE dayah

The Modern Periodic Table

Chapter 6 The Periodic Table and Periodic Law

The Periodic Table Chapter 5 Notes. Mendeleev ● Designed first periodic table (1869) ● Arranged mostly by increasing atomic mass ● Elements in the same.

Ch. 6: The Periodic Table 6.1 Organizing the Elements Mendeleev, Periodic Law, metals, nonmetals, metalloids 6.2 Classifying the Elements squares in.

Periodic Table Chapter 6.

Chapter 4 The Periodic Table.

Chemical Periodicity.

Chemistry Chapter 5 The Periodic Law.

History of the Periodic Table Dimitri Mendeleev published a periodic table that arranged elements by increasing atomic mass Dimitri Mendeleev published.

Unit 6 – The Periodic Table

Periodic Trends.

The Periodic Table and Periodic Trends

 Russian chemist Dmitri Mendeleev placed the known elements in order of increasing atomic mass.  When he did this he noticed that the elements’ properties.

Unit 3 Periodic Table James Hutchison ROHS. Development of the Periodic Table – By the mid-1800s, about 70 elements were known – Dmitri Mendeleev ordered.

Video 4.1Video 4.1 Introduction and History of the Periodic Table.

Chapter 6 “The Periodic Table”

The Periodic Table. Dmitri Mendeleev (1834 – 1907) He organized elements into the first periodic table He arranged elements by increasing atomic mass.

Chapter 6 The Periodic Table. 6.1 Objectives  Explain how elements are organized in a periodic table.  Compare early and modern periodic tables.  Identify.

The Periodic Table I.History II.Arrangement of Elements III.Electron Configuration Trends IV.Periodic Trends V.Reactivity.

Dmitri Mendeleev In 1869 he published a table of the elements organized by increasing atomic mass.

Periodic Table.

Pre-class Activity How are library books classified? Why is such a classification system valuable?

Chapter 6: The Periodic Table

Chapter 6: The Periodic Table

Chapter 5 The Periodic Table. Periodic Table Info.

The Periodic Table Chapter 6. A quest for accurate reproduction J.W. Dobereiner – published his triad classification system (ex. Cl,Br,I similar chemical.

Periodic Relationships Among the Elements Chapter 5 Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.

The Periodic Table. ( very ) Brief History 1869 Mendeleev* & Meyer published similar tables * First to be recognized at international convention – Elements.

UNIT 5: THE PERIODIC TABLE. Organizing the Elements How would you organize the people in this room? How did chemists begin to organize the known elements?

Organizing the Elements.  Copper, Silver, and Gold  1700, 13 elements have been identified  Rate of discovery increased..why?   Including.

Periodic Table. Dmitiri Mendeleev, 1871 Listed the elements in columns in order of increasing atomic mass.

Periodic Table And the Periodic Law. Dmitri Mendeleev Russian chemist Created a table by arranging elements according to atomic masses Noticed that chemical.

Physical Science 513 Unit – The Periodic Table.

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

The Modern Periodic Table Early Periodic Table – Atomic Number In 1913 Henry Mosley discovered that each element contained a unique number of protons.

Chemistry Q1 Amazing Benchmark Review. Example 1: Standard 1a: Know how to relate the position of an element in the periodic table to its atomic number.

The Periodic Table I.History II.Arrangement of Elements III.Electron Configuration Trends IV.Periodic Trends V.Reactivity.

PERIODIC TABLE. Essential Question: What were Mendeleev and Mosley contributions to the development of the periodic table? History: Dmitri Mendeleev (1869)

Do-now Get into Lab Groups! Take out a piece of paper! Periodic Table of the Aliens!- Figure out what your missing aliens should look like  First group.

Glencoe Chapter 6 Bryce Wolzen.  Dmitri Mendeleev: ◦ Developed the first “modern” periodic table (1869) ◦ Arranged elements according to increasing.

Where it all is. The Begining  Law of Triads: In 1817 Johann Dobereiner noticed that the atomic weight of strontium fell midway between the weights of.

The Periodic Table. We will start with a song! Element Song.

Mendeleev’s Periodic Table (1869)

Chapter 5B Notes Exploring the Periodic Table

Periodic Trends The Periodic Law Classification of Elements

Periodic Trends The Periodic Law Classification of Elements

Periodic Table and Periodic Law

Periodic Table.

Chapter 6: The Periodic Table

Chapter 6 The Periodic Table and Periodic Law

Ch. 6 The Periodic Table.

Development of the Periodic Table

Chapter 6 – The Periodic Table

The Periodic Table History Arrangement of Elements

Chapter 11 & 12 The Periodic Table & Periodic Law.

Starter S-44 A. What is Lithium’s electron configuration?

Chapter 6 The Periodic Table.

The Periodic Table A few elements, including copper, silver, and gold, have been known for thousands of years There were only 13 elements identified by.

The Periodic Table & Periodic Law

Chapter 6 – The Periodic Table

One way of organizing the periodic table

The Periodic Table Chapter 6.

The Periodic Table Unit 2.

The Periodic Table and Periodic Law

Presentation transcript:

Starter S-44 A. What is Lithium’s electron configuration? B.What column of the periodic table is it in? C.What is Sodium’s electron configuration? D.What column of the periodic table is it in?

The Periodic Table Chapter 6

6.1 Organization of the Elements Chapter 6

In ancient times the known elements were Gold, Silver, Copper, Iron, Lead, Tin, Mercury, Sulfur, Carbon Up until the 1700’s only 4 more had been discovered Arsenic, Antimony, Phosphorus, Zinc 6.1 Organization of the Elements

1829 JW Dobereiner – puts elements in triads Sets of 3 elements with similar chemical properties 6.1 Organization of the Elements

1864 John Newland – Law of Octets When elements are placed in order of atomic mass, properties seem to repeat every 8 elements 6.1 Organization of the Elements

1869 – Dimitri Mendeleev – arranged by increasing atomic mass and properties The table is periodic – properties repeat 6.1 Organization of the Elements

1913 – Henry Mosley – used atomic number instead of atomic mass 6.1 Organization of the Elements

The Periodic Law – when elements are arranged in order of increasing atomic number, there is a periodic repetition of their physical and chemical properties. 6.1 Organization of the Elements

Period – row 7 rows 6.1 Organization of the Elements

Group – column 18 groups (some have names) 6.1 Organization of the Elements Alkali MetalsAlkaline Earth MetalsHalogens Noble Gases Transition Metals

Draw the zig-zag line on your periodic table and label the metals and nonmetals 6.1 Organization of the Elements

Metals Good conductors, lusterous, ductile, malleable 6.1 Organization of the Elements

Nonmetals Poor conductors, dull, brittle 6.1 Organization of the Elements

Metalloids Sometimes behaves like a metal, sometimes like a nonmetal 6.1 Organization of the Elements

6.2 Classifying the Elements Chapter 6

Information on the periodic table Electron configuration is determined by the elements position on the periodic table 6.2 Classifying the Elements s1s1 s2s2 p1p1 p2p2 p3p3 p4p4 p5p5 p6p6 d1d1 d2d2 d3d3 d4d4 d5d5 d6d6 d7d7 d8d8 d9d9 d 10 f1f1 f2f2 f3f3 f4f4 f5f5 f6f6 f7f7 f8f8 f9f9 f 10 f 11 f 12 f 13 f 14

Remember 1 st s is level one, 1 st p is second, 1 st d third 1 st f fourth 6.2 Classifying the Elements s1s1 s2s2 p1p1 p2p2 p3p3 p4p4 p5p5 p6p6 d1d1 d2d2 d3d3 d4d4 d5d5 d6d6 d7d7 d8d8 d9d9 d 10 f1f1 f2f2 f3f3 f4f4 f5f5 f6f6 f7f7 f8f8 f9f9 f 10 f 11 f 12 f 13 f 14

6.2 Classifying the Elements s1s1 s2s2 p1p1 p2p2 p3p3 p4p4 p5p5 p6p6 d1d1 d2d2 d3d3 d4d4 d5d5 d6d6 d7d7 d8d8 d9d9 d 10 f1f1 f2f2 f3f3 f4f4 f5f5 f6f6 f7f7 f8f8 f9f9 f 10 f 11 f 12 f 13 f 14 Noble Gas Configuration 1.Find the noble gas before the element 2.Put that element in brackets [ ] 3.Fill out the rest of the configuration using the pattern in the periodic table

For example Strontium (Sr) [Kr]5s Classifying the Elements s1s1 s2s2 p1p1 p2p2 p3p3 p4p4 p5p5 p6p6 d1d1 d2d2 d3d3 d4d4 d5d5 d6d6 d7d7 d8d8 d9d9 d 10 f1f1 f2f2 f3f3 f4f4 f5f5 f6f6 f7f7 f8f8 f9f9 f 10 f 11 f 12 f 13 f 14 Sr

Germanium (Ge) [Ar]4s 2 3d 10 4p Classifying the Elements s1s1 s2s2 p1p1 p2p2 p3p3 p4p4 p5p5 p6p6 d1d1 d2d2 d3d3 d4d4 d5d5 d6d6 d7d7 d8d8 d9d9 d 10 f1f1 f2f2 f3f3 f4f4 f5f5 f6f6 f7f7 f8f8 f9f9 f 10 f 11 f 12 f 13 f 14 Ge

Starter S-45 What are the names of the elements in 1.Group 1 2.Group 2 3.Group Group 17 5.Group 18

6.3 Periodic Trends Chapter 6

6.3 Periodic Trends Atomic Size – The size of an atom of a particular element Increases down a group Decreases across a period Video

6.3 Periodic Trends Not always an exact pattern

6.3 Periodic Trends 2.Ions – charged atoms Lost (+) or gained (-) electrons Cation – lost electrons Anion – gained electrons Ion Formation Table of ionic radii

6.3 Periodic Trends 3.Ionization Energy The energy required to remove an electron from an atom 1 st ionization energy – energy to remove the first electron Decrease down a group Increase across a period Ionization energy video

6.3 Periodic Trends 4.Electronegativity Ability of an atom to attract electrons when the atom is in a compound Increases across periodic table Decreases down periodic table 6.3 Periodic Trends

5. Density 6.3 Periodic Trends

5. Melting Point 6.3 Periodic Trends

Main reasons for patterns 1.Increasing nuclear charge down a group and across a period more protons, larger positive charge 2.Increased shielding down a group as energy levels increase, those electrons further out, are shielded by the inner ones 6.3 Periodic Trends