Presentation is loading. Please wait.

Presentation is loading. Please wait.

Chapter 8 Classifying Chemical Compounds

Published byDennis McCarthy Modified over 8 years ago

Similar presentations

Presentation on theme: "Chapter 8 Classifying Chemical Compounds"— Presentation transcript:

1 Chapter 8 Classifying Chemical Compounds

2 Key Ideas All chemical compounds are either organic or inorganic.
Inorganic compounds can be molecular or ionic (acids, bases, or salts). Lewis diagrams (electron dot) can explain how molecular compounds form as a result of bonding pairs of electrons.

3 Key Ideas Organic compounds are molecular and contain carbon and hydrogen All chemical compounds can be classified as either organic or inorganic.

4 Classifying Inorganic Compounds
Chemical compounds can be classified as either organic or inorganic. Compounds that have a high percentage of carbon by mass are classified as organic compounds; otherwise they are considered to be inorganic. (Usually have hydrogen as well)

5 Inorganic compounds Inorganic compounds do not have a high percentage of carbon by mass and can be either ionic or molecular.

6 Inorganic Molecules Compounds in this class are
Inorganic, so they contain little or no carbon (most fit into this category) Molecular, so they have a non-metal bonded to a non-metal. (eg. CO2 ,H2O, N2O)

7 Inorganic Ionic Compounds
By the 1500’s scientists had recognized two groups of substances which became known as acids and bases. When acids react with bases they create a new substance which tasted salty. When water was evaporated from this solution, a crystalline substance remained

8 Inorganic Ionic Compounds
Svante Arrhenius developed definitions of acids and bases based on the type of ions a substance releases in an aqueous solution. Bases release OH ions (OH-1) and acids release H ions (H+1).

9 General Properties of Acids, Bases, and Salts.
Acidity A solution can be acidic, basic, or neutral based on the relative number of H or OH ions it contains. A neutral solution has equal numbers of H and OH ions. An acidic solution has more H ions than OH ions. A basic (alkaline) solution has more OH ions than H ions

10 A few water molecules form H+ and Oh- ions (about 1 in a million)
A few water molecules form H+ and Oh- ions (about 1 in a million). In other words water is very slightly ionic. A few water molecules form H+ and Oh- ions (about 1 in a million). In other words water is very slightly ionic.

11 Measuring Acidity (The pH Scale)
The pH of a solution indicates how acidic or basic the solution is. The normal range of pH is from 0 to 14, with a pH of 7 being neutral. Solutions with a pH less than 7 are acidic Solutions with a pH greater than 7 are basic (alkaline)

12 pH Values of some common items

13 pH Scale Every 1 point on the pH scale represents 10 times more or less H+ ions present. Eg. A solution with a pH of 4 has 10 times more H+ ions (10 times more acidic) than one with a pH of 5. See table 5 page 206. pH indicators are chemicals that change colour depending on the pH of a solution.

14 8.2 Another Look at Bonding – Lewis Diagrams
G. N. Lewis developed a system of arranging dots around an element’s symbol that represents the valence electrons of an atom as it prepares to bond. F F

15 Lewis Diagrams and Covalent Bonds
A Lewis diagram is a simpler version of a Bohr diagram that has only valence electrons illustrated. The single valence electrons (unpaired) pair up with another single electron from another atom to form a shared pair, or bonding pair, of electrons. Lewis diagrams are also called electron dot diagrams.

16 Lewis Diagrams for Atoms
A Lewis diagram can be drawn for any atom by following a few simple rules. Determine the number of valence electrons group 1 and 2 have 1 and 2 valence electrons. group 13–18 have 3-8 valence electrons.

17 Lewis diagrams Arrange the valence electrons as dots around the atom’s symbol, just like you would in a bohr diagram. One dot per side (up to four) and then start pairing them up

18 Lewis Diagrams for Molecules
Lewis diagrams can be drawn for molecules. These diagrams illustrate how the atoms come together to form covalent bonds. To draw a Lewis diagram for a molecule, you must first be given the molecular formula. Atoms are then connected to one another by pairs of shared electrons, or bonding pairs.

19 Example: Water

20 Lewis Diagrams The purpose of a Lewis diagram is to illustrate that the formation of these covalent molecules is possible. Lewis diagrams can also be drawn for ions and ionic compounds, but we will not be doing this.

Download ppt "Chapter 8 Classifying Chemical Compounds"

Similar presentations

The Chemical Basis of Life

The Chemical Basis of Life
Definition of a chemical compound A compound is a substance formed when two or more chemical elements are chemically bonded together. Two types of chemical.

Definition of a chemical compound A compound is a substance formed when two or more chemical elements are chemically bonded together. Two types of chemical.
Chapter 8: Elements and Chemical Bonds

Chapter 8: Elements and Chemical Bonds
Ch 7 Notes. Atoms ‘building blocks’ Element ‘one kind of atom’ Compounds ‘different kinds of atoms’ Shown w/ Symbols Shown w/ Formulas Molecule two or.

Ch 7 Notes. Atoms ‘building blocks’ Element ‘one kind of atom’ Compounds ‘different kinds of atoms’ Shown w/ Symbols Shown w/ Formulas Molecule two or.
Chapter 14 Preview Lesson Starter Objectives Acids Bases

Chapter 14 Preview Lesson Starter Objectives Acids Bases
Basic Food Chemistry: The Nature of Matter

Basic Food Chemistry: The Nature of Matter
Access to HE Diploma Pharmacy and Biomedical Science Introduction to Matter Lesson 5.

Access to HE Diploma Pharmacy and Biomedical Science Introduction to Matter Lesson 5.
Lewis Dot Structures Lewis Lewis Dot Structures For atoms--- 1.Figure out how many valence electrons an atom has. 2.Draw the electrons one at a time.

Lewis Dot Structures Lewis Lewis Dot Structures For atoms--- 1.Figure out how many valence electrons an atom has. 2.Draw the electrons one at a time.
Chemical Foundations for Cells Chapter 2. You are chemical, and so is every living and nonliving thing in the universe. You are chemical, and so is every.

Chemical Foundations for Cells Chapter 2. You are chemical, and so is every living and nonliving thing in the universe. You are chemical, and so is every.
Compounds that have a high percentage of carbon by mass are classified as organic compounds; otherwise they are considered to be inorganic compounds. Inorganic.

Compounds that have a high percentage of carbon by mass are classified as organic compounds; otherwise they are considered to be inorganic compounds. Inorganic.
Welcome to yet another review to improve your understanding of the chemistry 10 key terms.

Welcome to yet another review to improve your understanding of the chemistry 10 key terms.
Basic Chemistry. Chemistry: Chemistry is the science of matter. –Scientists study chemicals, their properties, and REACTIONS (rxn).REACTIONS BIOCHEMISTRY.

Basic Chemistry. Chemistry: Chemistry is the science of matter. –Scientists study chemicals, their properties, and REACTIONS (rxn).REACTIONS BIOCHEMISTRY.
“CHEMISTRY OF LIFE” ATOMIC STRUCTURE. ELEMENTS: A SUBSTANCE THAT CAN NOT BE BROKEN DOWN INTO A SIMPLIER SUBSTANCE. ELEMENTS CONSIST OF ONE TYPE OF ATOM.

“CHEMISTRY OF LIFE” ATOMIC STRUCTURE. ELEMENTS: A SUBSTANCE THAT CAN NOT BE BROKEN DOWN INTO A SIMPLIER SUBSTANCE. ELEMENTS CONSIST OF ONE TYPE OF ATOM.
Molecules, Bonding, Acids and Bases. Chemical Bonds molecule A group of atoms bonded to one another form a molecule. compound If the molecule has more.

Molecules, Bonding, Acids and Bases. Chemical Bonds molecule A group of atoms bonded to one another form a molecule. compound If the molecule has more.
Unit 9 Acid-Base Chemistry Chapters 14 & 15. ACIDS & BASES Chapter 14.

Unit 9 Acid-Base Chemistry Chapters 14 & 15. ACIDS & BASES Chapter 14.
Chapter 8 Acids, bases, Salts, Lewis diagrams and Organic compounds.

Chapter 8 Acids, bases, Salts, Lewis diagrams and Organic compounds.
Elements & Bonding. I. Elements of Life A. All organisms in diverse forms are composed of matter. – 1. Matter is made up of elements; which are substances.

Elements & Bonding. I. Elements of Life A. All organisms in diverse forms are composed of matter. – 1. Matter is made up of elements; which are substances.
Inorganic Chemistry – Chemical Bonding. Chemical Bonding (1). When two or more atoms react ---  chemical bond – Valence electrons – Form Ionic bonds.

Inorganic Chemistry – Chemical Bonding. Chemical Bonding (1). When two or more atoms react ---  chemical bond – Valence electrons – Form Ionic bonds.
Chemical Bonding. Chemical Bond The forces that hold groups of atoms together and make them function as a unit Bonding involves only the valence electrons.

Chemical Bonding. Chemical Bond The forces that hold groups of atoms together and make them function as a unit Bonding involves only the valence electrons.
Lewis Structures and Chemical Bonding. Valence Electrons The electrons that exist in the outermost electron shell of an atom We can determine the number.

Lewis Structures and Chemical Bonding. Valence Electrons The electrons that exist in the outermost electron shell of an atom We can determine the number.

Similar presentations

Ads by Google