Revision as of 06:35, 24 November 2010 by Dmustaf (Talk | contribs)

Conversion Factors
Length
$ \begin{array}{lcl} 1 \mbox{ kilometer (km) } & = & 1000 \mbox{ meter (m) } \\ 1 \mbox{ meter (m) } & = & 100 \mbox{ centimeter (cm) } \\ 1 \mbox{ centimeter (cm) } & = & 10^{-2} \mbox{ m } \\ 1 \mbox{ millimeter (mm) } & = & 10^{-3} \mbox{ m } \\ 1 \mbox{ micron } (\mu ) & = & 10^{-6} \mbox{ m } \\ 1 \mbox{ millimicron ( m} \mu ) & = & 10^{-9} \mbox{ m } \\ 1 \mbox{ angstrom (A) } & = & 10^{-10} \mbox{ m } \\ \end{array} $
Surface
$ \begin{array}{lcl} 1 \mbox{ square meter (m}^2) & = & 10,76 \mbox{ ft}^2 \\ 1 \mbox{ square foot (ft}^2) & = & 929 \mbox{ cm}^2 \\ \end{array} $
Volume
$ \begin{array}{lcl} 1 \mbox{liter }( l) = 1000 \mbox{ cm}^3 = 1,057 \mbox{ quart (qt) } = 61,02 \mbox{ in}^3 = 0,03532 \mbox{ ft}^3 \end{array} $
Mass
Speed
Density
Force
Energy
Power
Pressure

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Abstract algebra continues the conceptual developments of linear algebra, on an even grander scale.

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