Presentation is loading. Please wait.

Presentation is loading. Please wait.

All organic compounds consist of carbon and hydrogen. Many also contain oxygen and nitrogen Other elements may also be present. Phosphorous, halogens.

Published byJohn Miller Modified over 7 years ago

Similar presentations

Presentation on theme: "All organic compounds consist of carbon and hydrogen. Many also contain oxygen and nitrogen Other elements may also be present. Phosphorous, halogens."— Presentation transcript:

1

2

3

4 All organic compounds consist of carbon and hydrogen. Many also contain oxygen and nitrogen Other elements may also be present. Phosphorous, halogens and/or metals Most compounds are composed of carbon chains bonded with hydrogen

5 H H H H H | | | | | H - C – C – C – C – C – H | | | | | H H H H H A carbon / hydrogen chain (organic) H H H H H | | | | | H - C – C – C – C – C – O - H | | | | | H H H H H A carbon / hydrogen chain containing oxygen

6 Carbon can make four (4) bonds Hydrogen can make one (1) bond Oxygen can make two (2) bonds Nitrogen can make three (3) bonds Sulfur can make two (2) bonds Halogens can make one (1) bond | – C – | H – - O - – N – | - S – Cl -

7 | – C – H | – C = O | C N Carbon can make single, double or triplebonds Hydrogen can make only single bonds Oxygen can make single or double bonds – C = O | | C – O - C | |

8 Nitrogen can make single, double or triplebonds Sulfur can make single or double bonds Halogens can make only single bonds H– N – H | H – C = N | C N | | - C – S – C - | | – C = S | - C - Br |

9 Naming Organic Compounds Meth = 1 C Eth = 2 C Prop = 3 C But = 4 C Pent = 5 C Hex = 6 C Hept = 7 C Oct = 8 C Non = 9 C Dec = 10 C Study this Slide and then click here To continue

10 Aliphatic Hydrocarbons Alkanes – All single bond between carbons (name ends in “ane”) Alkenes – contains double bonds between carbons (name ends in “ene”) Alkynes – contains triple bonds between carbons (name ends in “yne”)

11 Naming hydrocarbons starts with selecting the longest Chain (even around corners). H H H H H H | | | | | | H - C – C – C – C – C – C - H | | | | | H H H H H - C - H | H - C – H | H 7 C c h a i n Not 5 C chain Name starts with “hept” (7C) All single bonds Name ends with “ane” Heptane |H|H

12 H H H H H H | | | | | | H - C – C – C – C – C – C - H | | | | | H H H H H - C - H | H - C – H | H |H|H Naming the Side Chain Side Chain

13 H- C- C -C - H H H | | | H H H | | | H H H H | | | | H H H H | | | | H- C- C -C -C --C - H H H | | H H H | | CH--H | Methyl CH 3 Ethyl C 2 H 5 Propyl C 3 H 7 Butyl C 4 H 9 Some Common Side Chains

14 H H H H H H | | | | | | H - C – C – C – C – C – C - H | | | | | H H H H H - C - H | H - C – H | H |H|H -C - H H H | | Methyl Methyl Heptane But where is the methyl Group attached?

15 H H H H H H | | | | | | H - C – C – C – C – C – C - H | | | | | H H H H H - C - H | H - C – H | H Count from the Short end of The chain Methyl group is attached to the third carbon thus 3 methyl heptane |H|H

16 H H H H H | | | | | | H - C – C – C – C – C – C - H | | | | | H H H H H - C - H | H - C – H | H -C - H H H | | |H|H Two side chains The first methyl group is on the second Carbon counting from the short end! The second methyl group is on the fifth Carbon counting from the short end! 2, 5 dimethyl heptane

17 Alkenes (Double bonds) H H H H H H | | | | | | H - C – C – C – C = C – C - H | | | | H H H H |H|H A six Carbon chain – “hex” Alkene – ends in “ene” Double bond on second Carbon From shortest end of chain 2 hexene

18 H H H H H | | | | | | H - C = C – C – C – C – C - H | | | H H H - C - H | H - C – H | H -C - H H H | | |H|H 2, 5 dimethyl 1 heptene Alkene with two side groups

19 H H H H H H | | | | | | H - C – C – C – C – C – C – C C-H | | | | | H H H H H - C - H | H - C – H | H |H|H Longest chain 8 Carbons (oct) 2 Carbon Side chain (ethyl) on C atom 4 Triple bond on C atom 1 (“yne”) Alkynes (triple bond) 4 ethyl 1 octyne

20 Alkynes (triple bonds) Alkenes (Double bonds) Alkanes (Single bonds) C n H (2n +2) C n H 2n C n H (2n -2) General Formula C 3 H 8 C 3 H 6 C 3 H 4 Propane Propene Propyne

21 | O -H – C = O | O | Hydroxyl Ester Linkage – N – H | H Amine Common Organic Groups

22 – C = O O -H | Carboxyl – C = O | Carbonyl | | - C – O – C - | | Ether Linkage Amide – C = O | N – H |H|H C

23 – C = O | Carbonyl | | - C – O – C - | | Ether Linkage + = – C = O | O | Ester Linkage Some functional groups are combinations of smaller functional groups

24 | O -H Hydroxyl + – C = O | Carbonyl = – C = O O -H | Carboxyl – N – H | H Amine – C = O | Carbonyl + = – C = O | – N – H |H|H C Amide

25 Compounds Containing Functional Groups Alcohols -O-H End in “ol” -C - H H H | | CH--H | Ethyl C 2 H 5 O-H Ethyl Alcohol Ethanol Common name Grain alcohol R –OH R = a Carbon/ Hydrogen chain

26 ketones – C = O | End in “one” Methyl ethyl ketone Butanone 2 butanone is incorrect Since counting from either end would put the carbonyl On the second Carbon R– C = O | R R = a Carbon/ Hydrogen chain -C - H H H | | C = O -C - H H | | CH--H | H Compounds Containing Functional Groups

27 Aldehydes – C = O | H End in “al” -C - H H H | | C=OH - Ethyl Aldehyde Ethanal Common name Acetaldehyde R – C = O | H R = a Carbon/ Hydrogen chain Compounds Containing Functional Groups

28 Acids – C = O | O -H End in “oic” -C - H H H | | | Acetic Acid Ethanoic Acid Common name Vinegar R– C = O | O -H R = a Carbon/ Hydrogen chain C = O O -H Compounds Containing Functional Groups

29 Structural Isomers Same formula but different arrangement of atoms H H H H | | | | H H H H | | | | H- C- C -C -C -H Butane C 4 H 10 H H H | | | H | H | | | H- C- C -C -H Methyl Propane C 4 H 10 H – C – H | H

30 PropanonePropanal

31

32 Chiral Carbons Mirror Image molecules

33 Out of screen Into screen Molecules Cannot be Superimposed!

34

35 Cis and Trans Isomers cis-butenedioic acid (maleic acid) trans-butenedioic acid (fumaric acid) Double bond “cis” like scissors (next to)“trans” across form

36 Aromatics Aromatics are compounds that contain a benzene ring as part of their structure C 6 H 6

37 Delocalized Electron cloud Resonance structure

38 Different symbols for the Benzene Ring

39 Aspirin Some Common Aromatics

40 Cyclics and Aromatics At first glance they look the same but aren’t C 6 H 6

41

Download ppt "All organic compounds consist of carbon and hydrogen. Many also contain oxygen and nitrogen Other elements may also be present. Phosphorous, halogens."

Similar presentations

Compounds composed mainly of Carbon and Hydrogen. Carbon takes on a -4 charge with Hydrogen being a +4. H-C-H H H.

Compounds composed mainly of Carbon and Hydrogen. Carbon takes on a -4 charge with Hydrogen being a +4. H-C-H H H.
Organic Chemistry Chemistry involving compounds that involve primarily C, H, O.

Organic Chemistry Chemistry involving compounds that involve primarily C, H, O.
Naming Hydrocarbons (nomenclature) Drawing Structures: It’s All Good 2-butene This is called the “condensed structure” CH 3 CH=CHCH 3 Using brackets.

Naming Hydrocarbons (nomenclature) Drawing Structures: It’s All Good 2-butene This is called the “condensed structure” CH 3 CH=CHCH 3 Using brackets.
Chapter 9 Carbon & Its Compounds.

Chapter 9 Carbon & Its Compounds.
1.

1.
Carbon and Hydrocarbons & Other Organic Compounds

Carbon and Hydrocarbons & Other Organic Compounds
Classifying Organic Compounds

Classifying Organic Compounds
Hydrocarbons: contain carbon and hydrogen Alkanes contain only single bonds Alkenes contain at least one double bond Alkynes contain at least one triple.

Hydrocarbons: contain carbon and hydrogen Alkanes contain only single bonds Alkenes contain at least one double bond Alkynes contain at least one triple.
Chapter 11 Introduction to Organic Chemistry: Alkanes

Chapter 11 Introduction to Organic Chemistry: Alkanes
Organic Compound Nomenclature

Organic Compound Nomenclature
1 Organic Chemistry Organic chemistry is the branch of chemistry that deals with the study of carbon based compounds. Bonds between carbon atoms are covalent;

1 Organic Chemistry Organic chemistry is the branch of chemistry that deals with the study of carbon based compounds. Bonds between carbon atoms are covalent;
ORGANIC CHEMISTRY Alkanes Alkenes Alkynes Ring Structures Cyclic

ORGANIC CHEMISTRY Alkanes Alkenes Alkynes Ring Structures Cyclic
Hydrocarbons Unsaturated hydrocarbons

Hydrocarbons Unsaturated hydrocarbons
Organic Compounds Carbon Bonding Forms 4 covalent bonds in chains or rings 1.

Organic Compounds Carbon Bonding Forms 4 covalent bonds in chains or rings 1.
Chapter 22 Organic Chemistry Alkanes – all single bonded carbons Alkenes – at least one double bond Alkynes – at least one triple bond Isomers – same number.

Chapter 22 Organic Chemistry Alkanes – all single bonded carbons Alkenes – at least one double bond Alkynes – at least one triple bond Isomers – same number.
Naming Organic Compounds. What is an organic Compound? A compound consisting of carbon. Most consist only of carbon, oxygen, hydrogen and nitrogen.

Naming Organic Compounds. What is an organic Compound? A compound consisting of carbon. Most consist only of carbon, oxygen, hydrogen and nitrogen.
Organic. Kinds of Hydrocarbons Aliphatic –Chains or rings of carbon atoms –May be planar or non - planar Aromatic –Planar molecules –Usually contain one.

Organic. Kinds of Hydrocarbons Aliphatic –Chains or rings of carbon atoms –May be planar or non - planar Aromatic –Planar molecules –Usually contain one.
CHAPTER 23 ORGANIC CHEMISTRY. The Nature of Organic Molecules Carbon is tetravalent. It has four outer-shell electrons (1s 2 2s 2 2p 2 ) and forms four.

CHAPTER 23 ORGANIC CHEMISTRY. The Nature of Organic Molecules Carbon is tetravalent. It has four outer-shell electrons (1s 2 2s 2 2p 2 ) and forms four.
CARBON AND THE MOLECULAR DIVERSITY OF LIFE Chapter 4.

CARBON AND THE MOLECULAR DIVERSITY OF LIFE Chapter 4.
Chapter 11 Introduction to Organic Chemistry: Alkanes

Chapter 11 Introduction to Organic Chemistry: Alkanes

Similar presentations

Ads by Google