Introduction to Desalination. Louis Theodore

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Название Introduction to Desalination
Автор произведения Louis Theodore
Жанр Химия
Серия
Издательство Химия
Год выпуска 0
isbn 9781119691747



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100 102 hecto h 10 101 deka da Base unit 1 100 0.1 10-1 deci d 0.01 10-2 centi c 0.001 10-3 milli m 0.000 001 10-6 micro µ 0.000 000 001 10-9 nano n 0.000 000 000 001 10-12 pico P 0.000 000 000 000 001 10-15 femto f 0.000 000 000 000 000 001 10-18 atto a

      3.4 Conversion Constants

      The physical, biological, and chemical properties of materials are important considerations in any study of desalination. To promote a better understanding of such properties, many of which are covered in Chapter 04, some definitions are briefly introduced in this section. Equations used in engineering as well as in the physical sciences are dimensional equations. The choice of the fundamental system of units determines the magnitude of the quantity described. Since the choice is optional, it is usually made to suit the convenience of a certain segment of the scientific community. For example, astronomers measure distance in light years, nuclear physicists employ angstroms, engineers use feet, etc. Engineers in the United States generally employ English units, but technical individuals need to be able to convert from one system of units to another.


To convert from To Multiply by
Length
m cm 100
m mm 1000
m microns (µm) 106
m angstroms () 1010
m in 39.37
m ft 3.281
m mi 6.214 x 10-4
ft in 12
ft m 0.3048
ft cm 30.48
ft mi 1.894 x 10-4
Mass
kg g 1000
kg lb 2.205
kg oz 35.24
ton 2.268 x 10-4
kg grains 1.543 x 104
lb oz 16
lb ton
lb g 453.6
lb kg 0.4536
lb grains 7,000
Time
s min 0.01667
s hr 2.78 x 10-4