Scope, Sequence, and Coordination

A Framework for High School Science Education

Based on the National Science Education Standards


Carbon Bonds in Chemistry

Hydrocarbons, Polymers, and Organic Macromolecules
Carbon atoms can bond to one another in chains, rings, and branching networks to form a variety of structures, including synthetic polymers, oils, and the large molecules essential to life.


Further Description:

Many molecules containing large numbers of atoms have useful chemical and physical properties that can be measured. Examples of physical properties are viscosity of lubricating oils; density, hardness, and melting point of plastics; and solubility of fats and oils. These properties can be explained in terms of the different bonding and structural classes of molecules and the kinds of atoms present in addition to carbon.


Concepts Needed:

Grade 9

Hydrocarbon, viscosity, density, hardness, electrical conductivity, melting point, solubility, structural formula, chains, rings, polymers, functional groups, isomers

Grade 10

Networks, branching networks

Grade 11

Alkane, alkene, alkyne, alcohol, aldehyde, ketone, ester, acid

Grade 12

Substitution reaction, elimination reaction, addition reaction, semiconductor, doping


Empirical Laws or Observed Relationships:

Polymerization


Theories or Models:

None suggested


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Micro-Unit Description:

Carbon Bonds in Chemistry
Students should describe the various ways that carbon atoms bond together in chains, rings, and branching networks to form a variety of structures.


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