C1_5_products_from_oils_crossword

... 9. The reaction in which the enzymes in yeast turn glucose into ethanol and carbon dioxide. 10. An alkene with the formula C3H6. 11. Polymers that change in response to changes in their environment. 12. A hydrocarbon whose molecules contain at least one carbon-carbon double bond. Down 1. Something t ...

Learning Guide: Water and Biomolecules (cont.) Bill Activity #17 To

Chapter 11

... •Inorganic compounds: cpds which are NOT hydrocarbons (~1.5 million) •Organic compounds: cpds which contain hydrogen & carbon (thus, hydrocarbons & derivatives) (~ 7 million) •“Organic Chemistry” started, as a branch of chemistry, when F. Wohler disproved the idea of “vital force.” - previously, it ...

Carbon Compounds

... • The Carbon chain in a hydrocarbon may be straight, branched or ring-shaped. • Each hydrocarbon has its structural formula; its kind, number and arrangement of atoms in a molecule. • Isomers; are compounds that have the same chemical formula but different structural formula. ...

Chapter 6: Chemical Bonding

... • Chemical compounds tend to form so that each atom has an octet of electrons in its highest energy level by gaining, losing, or sharing electrons. • Exceptions: – Hydrogen and Helium only need two valence electrons. – Boron can have less than eight, others can have more than eight. ...

Organic Chemistry HW PSI Chemistry

... D) water and its interaction with other kinds of molecules. E) inorganic compounds. 2) Which property of the carbon atom gives it compatibility with a greater number of different elements than any other type of atom? A) Carbon has 6 to 8 neutrons. B) Carbon has a valence of 4. C) Carbon forms ionic ...

Organic Chemistry HW PSI Chemistry Name

Biology 2B-1 - secondary

Lab Chemistry Winter Exam Study Guide

... Protons stabilize the nucleus. ...

H1- Functional Groups Theory Sheet Alcohol An alcohol group

... H1- Functional Groups Theory Sheet A functional group is a specific group of atoms or bonds that form part of an organic molecule. A certain type of functional group will undergo similar chemical reactions even when attached to different sized molecules; however neighbouring groups may affect this r ...

Chem 130 Fall 2004 Exam 3 Study Guide Chapter 8.1

... Conversion into alkyl halides (with HCl, HBr, SOCl2) Dehydration to form alkene (with H2SO4, concentrated, ∆) Oxidation: Primary alcohol to aldehydes (with PCC) Primary alcohol to carboxylic acids (with CrO3 or K2Cr2O7) Secondary alcohol to ketones (with PCC or CrO3 or K2Cr2O7) Tertiary alcoho ...

Atomic Structure, Molecular Structure & Bonding

... – H is never central; C is often central 3. Draw in electrons to fulfill octet and duet rules – C “likes” 8 electrons; H “likes” 2 electrons 4. Count ve-’s and compare to #2 5. If too many e-’s, make a double bond 6. Calculate formal charge (FC) to double check structure – No or low FCs (e.g. +1) mo ...

Active Reading 3.1: Matter and Substances

Chemistry Review

... also hydrogen, but not always) Hydrocarbons: only contain C and H, ex. CH4 Inorganic compounds do not contain Carbon ex. HCl ...

CHEM 2311

... the correct answer). What is the strongest intermolecular force in the compound you circled? ...

Final Exam Review - Clayton State University

... MULTIPLE CHOICE. Choose the one alternative that best completes the statement or answers the question. 1) Compounds that have the same molecular formula but different arrangements of atoms are called A) indicators. B) isotopes. C) isozymes. D) isometrics. E) isomers. ...

Organic Compounds!

... • Based on number of Carbons in the continuous chain. Prefixes are used- denoting the number of carbons. They are: • 1= meth2= eth- 3= prop- 4= but- … pent-, hex-, hept-, oct-, non-, dec- ...

Name

... Hydrogen - +1 – one outer shell or valence electron which is lost easily Carbon - + 4 or – 4 – four outer shell or valence electrons Oxygen - -2 – six outer shell electrons but tends to pull 2 more electrons in Nitrogen - -3 – five outer shell electrons, tends to pull 3 more electrons in 2. Identify ...

Carbon Compounds - Southgate Schools

... Lipids are formed when a glycerol molecule combines with a fatty acid If the carbon atoms of a fatty acid chain are joined by a single bond – said to be saturated ...

Topic 3.1: Chemical Elements and Water

... Atomic Mass: The total number of neutrons and protons in an atom. ...

Organic Chemistry

... Going the other way: Rules for interpreting organic structures • Carbon is always present in every organic molecule – assume carbon is at each end of every bond unless another atom is explicitly specified. • means that there is a carbon atom at the end of every ...

Atomic structure and bonding I can name group 1, 7 and 0 of the

... I can name group 1, 7 and 0 of the periodic table. I can state the names of the seven diatomic elements. I can label a diagram of an atom. I can state the mass, charge and position of a proton, neutron and electron within an atom. I can state the definition of an isotope. I can state the meaning of ...

Organic and Biological Molecules

... There is a separate class of cyclic unsaturated hydrocarbons called aromatic hydrocarbons. These compounds have a planar ring structure and a delocalized π system. The extended pi bonding provides exceptional stability to these molecules. Unlike other hydrocarbons, they do not burn well or cleanly. ...

Subject Description Form

(Q.3) Carbon completes its octet by

< 1 ... 130 131 132 133 134 135 136 137 138 ... 141 >

Aromaticity

In organic chemistry, the term aromaticity is formally used to describe an unusually stable nature of some flat rings of atoms. These structures contain a number of double bonds that interact with each other according to certain rules. As a result of their being so stable, such rings tend to form easily, and once formed, tend to be difficult to break in chemical reactions. Since one of the most commonly encountered aromatic system of compounds in organic chemistry is based on derivatives of the prototypical aromatic compound benzene (common in petroleum), the word “aromatic” is occasionally used to refer informally to benzene derivatives, and this is how it was first defined. Nevertheless, many non-benzene aromatic compounds exist. In living organisms, for example, the most common aromatic rings are the double-ringed bases in RNA and DNA.The earliest use of the term “aromatic” was in an article by August Wilhelm Hofmann in 1855. Hofmann used the term for a class of benzene compounds, many of which do have odors (unlike pure saturated hydrocarbons). Today, there is no general relationship between aromaticity as a chemical property and the olfactory properties of such compounds, although in 1855, before the structure of benzene or organic compounds was understood, chemists like Hofmann were beginning to understand that odiferous molecules from plants, such as terpenes, had chemical properties we recognize today are similar to unsaturated petroleum hydrocarbons like benzene.In terms of the electronic nature of the molecule, aromaticity describes the way a conjugated ring of unsaturated bonds, lone pairs of electrons, or empty molecular orbitals exhibit a stabilization stronger than would be expected by the stabilization of conjugation alone. Aromaticity can be considered a manifestation of cyclic delocalization and of resonance. This is usually considered to be because electrons are free to cycle around circular arrangements of atoms that are alternately single- and double-bonded to one another. These bonds may be seen as a hybrid of a single bond and a double bond, each bond in the ring identical to every other. This commonly seen model of aromatic rings, namely the idea that benzene was formed from a six-membered carbon ring with alternating single and double bonds (cyclohexatriene), was developed by August Kekulé (see History section below). The model for benzene consists of two resonance forms, which corresponds to the double and single bonds superimposing to produce six one-and-a-half bonds. Benzene is a more stable molecule than would be expected without accounting for charge delocalization.

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Aromaticity