Presentation is loading. Please wait.

Presentation is loading. Please wait.

Classifying Carbon Compounds: Use the structural formulas below to answer the following questions. 1. How many bonds does each carbon atom form in each.

Published byViolet Benn Modified over 9 years ago

Similar presentations

Presentation on theme: "Classifying Carbon Compounds: Use the structural formulas below to answer the following questions. 1. How many bonds does each carbon atom form in each."— Presentation transcript:

1 Classifying Carbon Compounds: Use the structural formulas below to answer the following questions. 1. How many bonds does each carbon atom form in each of the compounds shown? 2. What is the chemical formula for each compound? Use the format C X H Y. 3. Classify the compounds into two groups. 4. Explain the classification system. 5. Define “isomer”. 6. Which molecules are isomers of one another? 9.1 – Journal #1

2 1. Define “polar covalent molecule”. Give an example of a molecule that is polar and draw where the positive and negative charges are. 2. Which of the following is NOT a molecule: CO 2, H 2 O, N 2, CH 4, MgO. Now, explain WHY it isn’t a molecule. 3. What is the name for all of the molecules that contain Carbon and Hydrogen (it’s a vocabulary word). 9.1 – Journal #2

3 CARBON Structure, Bonds and Molecules

4 CARBON: Where is it in the Periodic Table? What is the atomic number and weight?

5 CARBON: What is the Lewis Dot Structure? How many electrons does it need? How many electrons does it need? FOUR FOUR How many bonds will it form? How many bonds will it form? FOUR FOUR What TYPE of bonds will it form? What TYPE of bonds will it form? COVALENT!!!! COVALENT!!!!

6 CARBON: What is the Lewis Dot Structure? What are all the ways Carbon can make FOUR COVALENT BONDS? What are all the ways Carbon can make FOUR COVALENT BONDS?

7 CARBON: What is the Lewis Dot Structure? All single covalent bonds ALKANES – a.k.a. Saturated Hydrocarbons This is ethane

8 DOUBLE covalent bond to ANOTHER Carbon ALKENES – a.k.a. Unsaturated Hydrocarbons This is ethene (or ethylene)

9 TRIPLE covalent bond to ANOTHER Carbon ALKYNES – also Unsaturated This is ethyne

10 CARBON: Unique in all the Universe! 6th most common element on Earth Basis for MANY, MANY molecules

11 Carbon comes in many forms. Covalently bonded to other elements. Caffeine Methane

12 To itself.Allotropes: different structural forms for an element CARBON: Unique in all the Universe! FullereneGraphite AdrenalineNicotine Diamond (network solid)

13 CARBON: Unique in all the Universe! In chains. Propane - hydrocarbon Vitamins ( Carotene) Fats

14 In rings. Benzene Fullerene Pyrene

15 In branches. DNA Fats - lipids

16 CARBON: ORGANIC CHEMISTRY CARBON IS UNIQUE AND FORMS MANY MOLECULES ORGANIC: from LIVING THINGS – always contain Carbon and Hydrogen (sometimes O) INORGANIC: non-living, or man-made Glucose = carbohydrate C 6 H 12 O 6 Polyethylene = plastics, - C 2 H 4

17 Organic Molecules: HYDROCARBONS Number of carbon atoms AlkaneAlkane - Saturated AlkeneAlkyneCycloalkane 1Methane——— 2EthaneEtheneEthyne— 3PropanePropenePropyneCyclopropane 4ButaneButeneButyneCyclobutane 5PentanePentenePentyneCyclopentane 6HexaneHexeneHexyneCyclohexane 7HeptaneHepteneHeptyneCycloheptane 8OctaneOcteneOctyneCyclooctane 9NonaneNoneneNonyneCyclononane 10DecaneDeceneDecyneCyclodecane

18 Organic Molecules: HYDROCARBONS As you add more carbon to the hydrocarbon, the molecule becomes heavier and properties change.

19 Name Molecular Formula Molecular Mass Melting Point ( o C) Boiling Point ( o C) State (25 o C, 101.3k Pa) Density (liquid g cm -3, 20 o C) Uses methaneCH 4 16-182-162gas major compone nt of natural gas (fuel) ethaneC2H6C2H6 30-183-88.6gas component of natural gas (fuel) propaneC3H8C3H8 44-188-42.1gas component of liquefied petroleu m gas (LPG), bottled gas (fuel) butaneC 4 H 10 58-138-0.5gas component of liquefied petroleu m gas (LPG), cigarette lighters (fuel) pentaneC 5 H 12 72-13036.1liquid0.626 component of petrol (fuel) hexaneC 6 H 14 86-95.368.7liquid0.659 component of petrol (fuel) decaneC 10 H 22 142-30174liquid0.730 component of petrol (fuel) hexadecaneC 16 H 34 22618.5288liquid0.775 component of diesel fuel & heating oil eicosaneC 20 H 42 28236343solid

20 Organic Molecules: HYDROCARBONS How do we separate the different weights so we can use them? Fractional distillation. http://science.howstuffworks.com/oil -refining4.htm VIDEO – REAL PLAYER

21 How do we use MANY hydrocarbons? COMBUSTION Burning coal: C + O2  CO2 Burning natural gas: CH4 + 2O2  CO2 + 2H2O Burning gasoline: 2C8H18 + 25O2  16CO2 + 18H20 Incomplete combustion creates CO (Carbon monoxide) instead of CO2 Organic Molecules: Hydrocarbons

22 Often times fossil fuels contain the elements NITROGEN AND SULFUR. When they are burned, they combine with water and create ACID RAIN. ALL combustion creates CO2 CO2 + H2O  H2CO3(Carbonic acid) Combustion of gasoline creates NO2 NO2 + H2O  H2NO3(Nitric acid) Combustion of coal creates SO3 SO3 + H2O  H2SO4(Sulfuric acid)

Download ppt "Classifying Carbon Compounds: Use the structural formulas below to answer the following questions. 1. How many bonds does each carbon atom form in each."

Similar presentations

Carbon compounds form the structures of a whale’s cells and control reactions that take place in those cells. The instructions for these processes are.

Carbon compounds form the structures of a whale’s cells and control reactions that take place in those cells. The instructions for these processes are.
Organic Chemistry Objectives: 1.state general properties and describe some reactions of organic compounds 2.describe the bonding between atoms in molecules.

Organic Chemistry Objectives: 1.state general properties and describe some reactions of organic compounds 2.describe the bonding between atoms in molecules.
Carbon Compounds ..

Carbon Compounds ..
One Upon a Time Organic compounds – compounds obtained from living organisms Inorganic compounds – compounds obtained from non living things.

One Upon a Time Organic compounds – compounds obtained from living organisms Inorganic compounds – compounds obtained from non living things.
Chapter 22.  Gasoline, diesel fuel, and kerosene are examples of liquid fuels. A solid fuel, coal, produced the steam for the locomotives that pulled.

Chapter 22.  Gasoline, diesel fuel, and kerosene are examples of liquid fuels. A solid fuel, coal, produced the steam for the locomotives that pulled.
What Is Carbon ? What Is Carbon ? CARBON is the chemical element with symbol C and atomic number 6. As a member of group 14 on the periodic table, it.

What Is Carbon ? What Is Carbon ? CARBON is the chemical element with symbol C and atomic number 6. As a member of group 14 on the periodic table, it.
Structure , Bonds and Molecules

Structure , Bonds and Molecules
What is a hydrocarbon? Why are alkanes considered to be saturated?

What is a hydrocarbon? Why are alkanes considered to be saturated?
UNIT 3 – ORGANIC CHEMISTRY. OBJECTIVES What does Organic mean? Is “organic” always good? (or better?)

UNIT 3 – ORGANIC CHEMISTRY. OBJECTIVES What does Organic mean? Is “organic” always good? (or better?)
mmcl2003 123456789 101112131415161718 19202122232425.

mmcl
9.1 – Journal #1 Classifying Carbon Compounds Classifying Carbon Compounds: Use the structural formulas below to answer the following questions. 1.How.

9.1 – Journal #1 Classifying Carbon Compounds Classifying Carbon Compounds: Use the structural formulas below to answer the following questions. 1.How.
GSCI 163 Lecture 12. Organic chemistry What distinguishes organic chemistry from other areas of chemistry? Origins – compounds from plants and animals.

GSCI 163 Lecture 12. Organic chemistry What distinguishes organic chemistry from other areas of chemistry? Origins – compounds from plants and animals.
Chapter 22 Hydrocarbon Compounds

Chapter 22 Hydrocarbon Compounds
© 2007 Thomson Learning, Inc. All rights reserved HFCC Science Division Principles of Organic Chemistry Unit 3 SCH 4C.

© 2007 Thomson Learning, Inc. All rights reserved HFCC Science Division Principles of Organic Chemistry Unit 3 SCH 4C.
Organic Chemistry Chapter 9.

Organic Chemistry Chapter 9.
Carbon Chemistry Classification of Hydrocarbons and Organic Functional Groups.

Carbon Chemistry Classification of Hydrocarbons and Organic Functional Groups.
25-3: Hydrocarbons 25-4: Saturated and Unsaturated Hydrocarbons

25-3: Hydrocarbons 25-4: Saturated and Unsaturated Hydrocarbons
Copyright © by Holt, Rinehart and Winston. All rights reserved. ResourcesChapter menu Organic Compounds All organic compounds contain carbon atoms, but.

Copyright © by Holt, Rinehart and Winston. All rights reserved. ResourcesChapter menu Organic Compounds All organic compounds contain carbon atoms, but.
Alkanes and Alkenes. Alkenes Alkanes Summary activities Combustion of alkanes Contents Cracking and polymerization.

Alkanes and Alkenes. Alkenes Alkanes Summary activities Combustion of alkanes Contents Cracking and polymerization.
 Carbon can combine in many ways with itself and other elements  Four valence electrons  Carbon has a central role in the chemistry of living things.

 Carbon can combine in many ways with itself and other elements  Four valence electrons  Carbon has a central role in the chemistry of living things.

Similar presentations

Ads by Google