Basic Chemistry - Biology with Radjewski

... • They can attain stability by sharing electrons with other atoms (covalent bond) or by losing or gaining electrons (ionic bond) • The atoms are then bonded together into molecules. • Octet rule—atoms with at least two electron shells form stable molecules so they have eight electrons in their outer ...

Functional Groups

... incomplete combustion of PCBs during waste incineration. They have high thermal stability and do not decompose until the temperature exceeds 700°C. The basic structure is two benzene rings connected by an oxygen-containing cyclic hydrocarbon. The benzene rings have from one to eight chlorine atoms s ...

Chapter 4 Carbon

Chapter 3 Fill-in-the blank

... 10. Atoms and molecules are always in motion. ________________________ energy is the energy of motion. _____________ is a measure of the total amount of kinetic energy due to molecular motion. 11. _______________________________ measures the intensity of heat due to the average kinetic energy of mol ...

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GLOSSARY

Organic chemistry

... When a carbon chain has a double (or triple bond) it does not need to have the maximum number of hydrogen's… so it is not full….. Or not saturated. When a carbon chain has only single bonds it needs the max number of hydrogen's…. It is saturated. ...

The Chemical Basis of Life

... Chemical reactions involve making and breaking bonds. Making bonds requires the input of energy. Energy is stored in molecules in the chemical bonds. Breaking bonds usually releases energy. ...

Bulent Terem - CH324 - Syllabus | Chaminade

... This is the second part of a two-semester course in organic chemistry. It is assumed that by now the participants have a sound understanding of the basic concepts of organic reaction mechanisms. In the next sixteen weeks we will start with topics in physical organic chemistry and gradually move into ...

Technical Data Sheet - Lučební závody Kolín

name

... alkalinity of a substance 3. Any compound that releases hydrogen ions (hydronium ions) in solution 4. The attractive force between oppositely charged ions, which is created when electrons are transferred from one atom to another 5. A subatomic particle that has no charge and that is located in the n ...

COMPOUNDS AND MOLECULES

... SiO2 (strong, rigid, high melting point) EXAMPLE: B. Network structure - IONS NaCl (strong, rigid, high melting point) EXAMPLE: C. Molecule groups C12H22O11 (weak bonds, low melting point) EXAMPLE: ...

Introduction to Organic Chemistry (Carbon Chemistry)

... Carbon has the ability to form long chains of atoms held together by strong covalent bonds. Molecules with over 700 carbon atoms bonded together are not uncommon! The carbon-carbon single bond is very strong and very stable – it takes strong UV light or lots of heat to crack it. The PROPERTIES OF OR ...

2-1 Checkpoint - Jordan High School

... • Ex: carbon – C12: 6 protons, 6 neutrons – C13: 6 protons, 7 neutrons ...

Functional Groups

... If the carbon is attached to one other carbon that carbon is primary (1o) and the alkyl halide is also 1o If the carbon is attached to two other carbons, that carbon is secondary (2 o) and the alkyl halide is 2o If the carbon is attached to three other carbons, the carbon is tertiary (3 o) and the a ...

MODEL BUILDING LAB #1

... PROCEDURE: show all work on separate sheet of paper 1. Build the following molecules then draw and name each. Note the difference in shape that changing from single to double to triple bonds make. a. C6H14 make at least 2 isomers, same chemical formula but different structural formula. Name each of ...

Functional Groups

Functionalizing spin-textured surfaces with tailored organic bonds

Word - chemmybear.com

...  Know the names of side groups: methyl –CH3 ethyl –C2H5 bromo –Br iodo –I chloro –Cl  Start numbering carbons of a parent chain where there are more side groups.  Know that “n” means “normal” (straight chain.) For example, n-pentane C-C-C-C-C  Draw and name isomers of substituted hydrocarbons.  ...

Carbon Chemistry

... • One of the most important carbon rings is benzene. • It has 6 carbons & 6 hydrogens , with alternating double bonds. ...

Chapter 4 Notes

... 4. H + H  H2 __ __ __ (shared) B. Ionic bonds 1. formed between _________ charged ions a. metals  ______ (+) b. nonmetals  _____ (-) 2. formed by the _______ of electrons a. one atom _____ electrons b. one atom _____ electrons 3. Examples and non-examples a. NaCl c. CO2 ...

CH CH Formula Weight = 86.1748114

Chemistry Carbon

... first shell and 4 in the second shell Carbon usually completes its valence shell by sharing electrons with other atoms in four covalent bonds This tetravalence by carbon makes large, complex molecules possible ...

2.1 Molecules and Metabolism

... mostly of carbon-based compounds • Carbon is unparalleled in its ability to form large, complex, and diverse molecules • Proteins, DNA, carbohydrates, and other molecules that distinguish living matter are all composed of carbon compounds ...

Chapter 2_part 1

...  Structure of ethene ...

< 1 ... 122 123 124 125 126 127 128 129 130 ... 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