- Gallery of Lewis structures in 3-D
This is a gallery of
Lewis structure s in3-D .
[
frame|Hydrogen ]
[
frame|Carbon ]
[
frame|Nitrogen ]
[
frame|Oxygen ]Carbon-Hydrogen covalent bond styles
These pictures are 3D Lewis type representations of the carbon-hydrogen bond using different ways of representing the molecule. The rotation is meant to help in visualizing the 3D structure of the molecule.
Space Filled (Carbon - 77pm radius, Hydrogen - 53pm radius)
"see through" Valence Shell
Hydrogen Covalent bonds
In a covalent or two center bond, one electron from the hydrogen drops into the hole of the other element and one electron from the element drops into the hydrogen hole. Distances are in picometers.
Hydrogen_74pmImage:CarbonHydrogen.gif|Carbon_109pmImage:NitrogenHydrogen.gif|Nitrogen_101pmImage:OxygenHydrogen.gif|Oxygen_96pmIf we fill up all the available holes, the molecules become
methane from carbon,ammonia from nitrogen andwater from oxygen.Other types of bonding
Carbon bonding and the Hydrocarbons
# In a
covalent or two center bond, one electron from each carbon drops into the hole of the other. Other forces keep the elements from being pulled furthur together.
# For thearomatic bond , one electron drops into a hole of the other carbon and the two closest holes par up with two electrons from the other carbon.
# The double covalent bond involves four centers, with two electrons and two holes from each carbon.Hydrocarbons are made up of hydrogen and carbon molecules bound together in a variety of ways. When you mix hydrogen molecules with carbon molecules, the relative concentrations are very important. Examples of covalent carbon bonds include ethane, the long octane and the round cyclohexane. A ratio of three hydrogen to one carbon will produce a lot of ethane. A ratio closer to two hydrogen to one carbon will produce more of the longer octane.Examples of the aromatic and double covalent can be found in the pictures of
ethylene (left) and the circularbenzene below.Oxygen covalent bonding for alcohols and sugars
A hydrocarbon with a single oxygen-hydrogen bond (a
hydroxide , OH for short) on the end is called analcohol . Two common alcoholsmethanol andethanol are examples.Glycerol is a collection of three OH hydroxides stuck to a short carbon chain and can be used to link two or three of the long hydrocarbons to create lipids. The sugar (glucose ), acts as a storage facility for the OH bonds.Alpha Glucose is in a ring structure and flattened out. These combine to become starches and cell coatings. Beta Glucose becomes plant cellulose.
Oxygen double covalent bonding for acids
An
organic acid is a hydrocarbon molecule with a with two oxygens and a hydrogen on the end. The hydrogen proton easily comes off forming an acid at that end of the molecule. The simpliest areFormic acid ,acetic acid (vinegar).Citric acid acts as a storehouse of this type of bond.Long hydrocarbon acid chains are called fatty acids. Palmitic and Oleic acids form the basis of
lipids , the main building block of biological cell walls.Nitrogen bonding for Amino and Nucleic acids
Nitrogen with its different charge adds enormous diversity to the structures that can be built. The most important are the structure molecules called
amino acids .Proteins are large organic structures built from amino acids. The fundamental binding property of amino acids is to have the 'amino' end of one molecule (where the nitrogen is) bind to the 'acetic' end of the next molecule.Nitrogen also gives molecules the flexibility to build
nucleic acids . This allows information to be encoded, stored and passed on to future generations using the DNA binding code.See Also
* [http://www.chemistryland.com/ElementarySchool/BuildingBlocks/BuildingOrganic.htm 2D Organic molecule building blocks]
* Valence shell electron pair repulsion theoryReferences
# [http://www.cem.msu.edu/~reusch/VirtualText/intro1.htm Virtual Textbook of Organic Chemistry] Electron Configurations
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