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Chapter 10 Organic Chemistry. Topics to Cover on the First Day of Lecture for Chem 1506 My web site – google russell moser Has everything you need to know for both lecture and lab My office hours Tutoring schedule for WB 5039
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Topics to Cover on the First Day of Lecture for Chem 1506 • My web site – google russell moser • Has everything you need to know for both lecture and lab • My office hours • Tutoring schedule for WB 5039 • Using web site to find information – click [Lecture Classes], then [Chem 1506…] • You will find • Syllabus has two parts • Course description - 650 total points - No makeup tests – attendance – tutoring • Fall Syllabus - We will try to stick to this schedule, particularly tests
Using web site to find information – click [Lecture Classes], then [Chem 1506…] • You will find • Student Information • Information about classes averages and your current grade after a test. • YSU Blackboard • Signin with YSU username and password. Search course catalog for “moser”. Select [enroll] & [submit]. Select [Home Page]. Select appropriate power point lecture slides. • Directions to use OWLv2 • New students to create an account (use YSU e-mail address) • Or enter your e-mail address and password and get to your assignments
On Home page you will find • My Class and Tutoring Schedule • Tutoring Schedule in WB 5039 Not up-to-date yet
Organic Chemistry Organic chemistry:The study of the compounds of carbon. • Organic compounds are made up of carbon and only a few other elements. • Chief among these are hydrogen, oxygen, and nitrogen. • Also present in some organic compounds are sulfur, phosphorus, and a halogen (fluorine, chlorine, bromine, or iodine).
Organic Chemistry Why is organic chemistry a separate discipline within chemistry? Historical:Scientists at one time believed that a “vital force” present in living organisms was necessary to produce an organic compound. • The experiment of Wöhler in 1828 was the first in a series of experiments that led to the demise of the vital force theory.
Organic Chemistry The sheer number of organic compounds • Chemists have discovered or made over 10 million organic compounds and an estimated 100,000 new ones are discovered or made each year. • By comparison, chemists have discovered or made an estimated 1.7 million inorganic compounds. • Thus, approximately 85% of all known compounds are organic. The link to biochemistry • Carbohydrates, lipids, proteins, enzymes, nucleic acids, hormones, vitamins, and almost all other chemicals in living systems are organic compounds.
Organic Chemistry A comparison of organic and inorganic compounds
Organic Structure Structural formula:Shows the atoms present in a molecule and the bonds that connect them. VSEPR model:The most common bond angles are 109.5°, 120°, and 180°.
Organic Structure Among neutral (uncharged) organic compounds: • Carbonnormally forms four covalent bonds and has no unshared pairs of electrons. • Hydrogen forms one covalent bond and no unshared pairs of electrons. • Nitrogen normally forms three covalent bonds and has one unshared pair of electrons. • Oxygen normally forms two covalent bonds and has two unshared pairs of electrons. • Halogennormally forms one covalent bond and has three unshared pairs of electrons.
Functional Groups Functional group:An atom or group of atoms within a molecule that shows a characteristic set of predictable physical and chemical properties. Functional groups are important because • They undergo the same types of chemical reactions no matter in what organic molecule they are found. • To a large measure, they determine the chemical and physical properties of a molecule. • They are the units by which we divide organic compounds into families. • They provide the basis on which we derive names for organic compounds.
Alcohols Alcohol:Contains an —OH (hydroxyl) group bonded to a tetrahedral carbon atom. For example, ethanol: • Alcohols are classified as primary (1°), secondary (2°), or tertiary (3°).
Important Definition • R group: An abbreviation for any groupof atoms that may include carbons, hydrogens, halogens, oxygens and nitrogens that are attached to a functional group or represent a side chain to the rest of a molecule.
Alcohols Problem:Draw Lewis structures and condensed structural formulas for the two alcohols with the molecular formula C3H8O.
Alcohols Problem:Draw Lewis structures and condensed structural formulas for the two alcohols with the molecular formula C3H8O. Solution:
Amines Amine:A compound containing an amino group (-NH2, RNH2, R2NH, R3N). • Amino groups are classified as primary (1°), secondary (2°), or tertiary (3°).
Amines Problem: Draw condensed structural formulas for the two primary amines with the molecular formula C3H9N.
Amines Problem:Draw condensed structural formulas for the two primary amines with the molecular formula C3H9N. Solution:
Aldehydes and Ketones Each contains a C=O (carbonyl) group. • Aldehyde:Contains a carbonyl group bonded to a hydrogen; in formaldehyde, the simplest aldehyde, the carbonyl group is bonded to two hydrogens. • Ketone: Contains a carbonyl group bonded to two carbon atoms.
Aldehydes and Ketones Problem:Draw condensed structural formulas for the two aldehydes with the molecular formula C4H8O.
Aldehydes and Ketones Problem:Draw condensed structural formulas for the two aldehydes with the molecular formula C4H8O. Solution: • First draw the functional group of an aldehyde and add the remaining three carbons; these may be bonded in two ways. • Then add the seven hydrogens necessary to complete the four bonds of each carbon.
Carboxylic Acids Carboxylic acid: A compound containing a -COOH (carboxyl: carbonyl + hydroxyl) group. • In a condensed structural formula, a carboxyl group may also be written -CO2H.
Carboxylic Acids Problem:Draw a condensed structural formula for the single carboxylic acid with the molecular formula C3H6O2.
Carboxylic Acids Problem:Draw a condensed structural formula for the single carboxylic acid with the molecular formula C3H6O2 Solution:The only way the carbon atoms can be written is three in a chain; the -COOH group must be on an end carbon of the chain.
Carboxylic Ester Carboxylic ester: A derivative of a carboxylic acid in which the H of the carboxyl group is replaced by a carbon group.
Carboxylic Amide Amide: A derivative of a carboxylic acid in which the —OH of the carboxyl group is replaced by an amino group.
Carboxylic Acids Problem:Draw a condensed structural formula for the single carboxylic acid with the molecular formula C3H6O2 Solution:The only way the carbon atoms can be written is three in a chain; the -COOH group must be on an end carbon of the chain.
Chapter 10 Organic Chemistry End Chapter 10