Aldehydes are organic compounds which have the functional group -CHO at the end of a carbon chain. Naming Aldehydes: 1.Count the number of carbon atoms.

Slides:

Advertisements

Similar presentations

Hydrocarbon Derivatives -Alcohols -Haloalkanes -Aldehydes -Ketones -Carboxylic Acids -Esters -Ethers -Amines -Amides.

Advertisements

Other Organic Compounds. Hydrocarbon derivatives are organic molecules that contain one or more elements in addition to carbon and hydrogen.

Organic Chemistry: Functional Groups

Hydrocarbon Derivatives

TOPIC 11 ORGANIC CHEMISTRY (orgo)

John E. McMurry Paul D. Adams University of Arkansas Chem 2412 Additional Nomenclature.

1 Dr Nahed Elsayed. Learning Objectives Chapter nine introduces carboxylic acids and their derivatives. The chemistry is very similar to that of aldehydes.

Carboxylic Acids And Their Derivatives 1.

Carboxylic Acids and Their Derivatives By: Dr. Shatha Alaqeel.

Amines and Amides Chapter 16 Pages Nitrogen Fourth most common atom in living systems. Important component of the structure of nucleic acids,

Amines and Amides. Amines An ammonia molecule in which one or more H-atoms are substituted by alkyl or aromatic groups Naming: Amino + alkane name OR.

Naming organic compounds. The basic rules The basic rules There are some general rules which you should remember when naming organic compounds: There.

UNIT 1 – ORGANIC CHEMISTRY

Organic Chemistry study of carbon to carbon compounds.

4.1 Systematic Nomenclature 1. Definitions Molecular formula Number of atoms in a molecule (element or compound) e.g. C 2 H 4 O 2 Empirical formula Simplest.

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

By Dr. Nahed Nasser Carboxylic Acids and Their Derivatives.

Functional Groups Chemistry 11. Functional Groups There are several different groups that can be added to a hydrocarbon in order to change it into a different.

Organic Chemistry Functional Groups. The hydrocarbon skeleton of an organic molecule is chemically inert. Most organic chemistry, then, involves the atoms.

Esters Organic compound formed by the condensation reaction of a carboxylic acid and an alcohol. O O R-C-OH + R-OH R-C-O-R’ + H2O (ester)

Hydrocarbon Derivatives Chemistry 11. Hydrocarbon Derivatives Are formed when one or more hydrogen atoms is replaced by an element or a group of elements.

Functional Groups. Groups of atoms attached to a carbon chain that determine the chemistry of the molecule Usually combinations of C and H Identify and.

Hydrocarbon Derivatives: Carboxylic Acids, Esters, Ethers, Amines and Amides SCH4U Spring 2012.

Ch 10.5 Functional Groups. Definition Functional Groups Have specific name/formula/structure Carry out specific Rx Have specific characteristics a)If.

Organics. Organic Structures Many materials that forensic scientists collect at a crime scene are organic in nature. Carbon atoms make the backbone of.

Functional Groups. An atom or group of atoms on a molecule that always reacts in the same manner.

Ch. 14: Carboxylic Acids, Esters, Amines and Amides

CARBOXYLIC ACID AND ESTERS

Chapter #21 Other Organic Compounds NearingZero.net.

Organic Chemistry Functional Groups: - Aldehydes - Ketones

AMIDES & AMINES. Introduction So far, we’ve dealt with compounds containing C, H, and O atoms. Many naturally produced compounds also contain nitrogen.

Functional Groups CHEMISTRY 11 MS. MCGRATH. Functional Groups A functional group is a portion of a molecule that is a recognizable / classified group.

Functional Groups III Functional Groups III.

Amines. 2 Learning Objectives Chapter ten discusses the following topics and by the end of this chapter the students will:  Know.

14-1 Ketones, Aldehydes, Amines Unit Aldehydes and Ketones  The simplest carbonyl compounds are aldehydes and ketones  A ketone has two alkyl.

Organic Chemistry Carbon is the basis of organic chemistry Carbon has the ability to make 4 covalent bonds. Carbon can repeatedly make covalent bonds to.

Organic Chemistry Organic chemistry is the study of carbon based compounds - This field of chemistry is very important because all living things and many.

Chapter Twelve Introduction to Organic Chemistry: Alkanes James E. Mayhugh Copyright © 2010 Pearson Education, Inc. Fundamentals of General, Organic and.

Unit 15: Organic Chemistry

Organic Chemistry Alkanes and Alkenes. Pure Hydrocarbons Because the main use of hydrocarbons is as a fuel there is no point in going to the effort to.

1 Dr Nahed Elsayed. Learning Objectives Chapter ten discusses the following topics and by the end of this chapter the students will:  Know the structure.

Amines and Amides.

Organic Functional Groups: Aldehydes, Ketones, Acids, Esters, Amines, and Amides.

Carboxylic Acids And Their Derivatives

Carboxylic Acids And Their Derivatives

Carboxylic Acids, Esters, Amides

CHAPTER 5: NOMENCLATURE

Amines Dr. Shatha I Alaqeel 108 Chem.

Chapter 1.7 Amines and Amides

Functional Groups By Dr. Christophy.

Alkenes, Alkynes and Functional Groups

Organic Chemistry (Functional Groups)

Organic Chemistry By Kevin Barlan.

Carboxylic Acids And Their Derivatives

Nomenclature of Aldehydes & Ketones:

1.7 AMINES AND AMIDES.

Amines, Aldehydes, Ketones

Functional Groups In an organic molecule, a functional group is an atom or group of atoms that always reacts in a certain way. Section 22-1.

Nomenclature of Aldehydes

Derivatives of Carboxylic Acids

Carboxylic Acids And Their Derivatives

Aim: How are carbon compounds named and drawn?

Organic Chemistry Functional Groups.

NAMING FUNCTIONAL GROUPS

Organic Functional Groups

ORGANIC CHEMISTRY The scientific study of the structure, properties, composition, reactions, and preparation (by synthesis or by other means) of chemical.

Presentation transcript:

Aldehydes are organic compounds which have the functional group -CHO at the end of a carbon chain. Naming Aldehydes: 1.Count the number of carbon atoms in the longest carbon chain - this will give you the parent name, eg. two carbon atoms – ethane. 2.Drop the –e ending of the parent name and add –al. 3.Alternatively, if the –CHO group is attached to a ring of carbon atoms, the suffix –carbaldehyde is used. Example: ethane  ethanal Prefix: oxo- Suffix: -al

Ketones are different from aldehydes in that the C=O bond is in the middle of two carbon atoms rather than at the end of the carbon chain. Naming Ketones: 1.Count the number of carbon atoms in the longest carbon chain – this gives you the base name. 2.Then change the suffix –e of the base name to –one. Example: ethane  ethanone Prefix: oxo- Suffix: -one

Carboxylic acids are defined by the functional group –COOH, which is always attached at the end of the carbon chain. Naming Carboxylic Acids: 1.Count the number of atoms in the longest carbon chain – this gives the base name. 2.Take off the –e suffix and replace it with –oic acid. Example: ethane  ethanoic acid Suffix: -oic acid

An acid chloride is similar to a carboxylic acid. The -OH group of a carboxylic acid is replaced by a chlorine atom. Naming Acid Chlorides: 1.Count the number of carbon atoms – this is the base name. 2.Take off the –e ending and add -oyl chloride. Example: ethane  ethanoyl chloride Suffix: -oyl chloride

Acid anhydrides are organic compounds that have two acyl groups bound to the same oxygen atom. Naming acid anhydrides: 1.Take the name of the parent acid – the first word of this is your base name. 2.Replace the word ‘acid’ with the word ‘anhydride’. Example: Ethanoic acid  ethanoic anhydride Suffix: -oic anhydride

Functional group - RCOOR The first word refers to the length of the carbon chain to the right of the functional group. This is then followed by an ‘oate’ depending on the number of carbons in and to the left of the functional group e.g. ethanoate = two carbons. Butyl methanoate

The beginning of the name refers to the number of carbon atoms in the molecule. Then the suffix ‘amide’ follows. Functional Group – RCONH 2

Amines are derivatives of ammonia where one or more of the hydrogen atoms in the ammonia molecule have been replaced by alkyl or aryl groups. They can be primary amines, secondary amines and tertiary amines depending on the number of carbons attached to the nitrogen. Naming Amines: Methylpropylamine 2-aminopentane (because the NH 2 group comes from the 2 nd carbon). The alkyl groups are listed alphabetically in the name.

Functional Group – C N 2-methyl,1-propanenitrile 1-butanenitrile The beginning of the name refers to the number of carbon atoms in the molecule. However if there are any methyl or ethyl groups etc. then this will come before anything else. The suffix of the name is ‘nitrile’ due to the carbon, nitrogen triple bond.

Functional Group - tthe benzene ring. 1-methyl,2-ethylbenzene The beginning of the name refers to the number of carbons present including any methyl groups. The suffix of the name is almost always ‘benzene.’ However the benzene ring is named as a phenyl group when it is a substituent.