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| TABLE 1. SELECTED METRIC CONVERSIONS |
| WHEN YOU KNOW |
MULTIPLY BY |
TO FIND |
| Temperature |
|
|
| Celsius (˚C) |
1.8 (˚C) + 32 |
Fahrenheit (˚F) |
| Celsius (˚C) |
˚C + 273.15 |
Kelvin (K) |
| degree change (Celsius) |
1.8 |
degree change (Fahrenheit) |
| Fahrenheit (˚F) |
[(˚F) −32] / 1.8 |
Celsius (˚C) |
| Fahrenheit (˚F) |
[(˚F −32) / 1.8] + 273.15 |
Kelvin (K) |
| Kelvin (K) |
K −273.15 |
Celsius (˚C) |
| Kelvin (K) |
1.8(K −273.15) + 32 |
Fahrenheit (˚F) |
| WHEN YOU KNOW |
MULTIPLY BY |
TO FIND |
| Distance/Length |
|
|
| centimeters |
0.3937 |
inches |
| kilometers |
0.6214 |
miles |
| meters |
3.281 |
feet |
| meters |
39.37 |
inches |
| meters |
0.0006214 |
miles |
| microns |
0.000001 |
meters |
| millimeters |
0.03937 |
inches |
| WHEN YOU KNOW |
MULTIPLY BY |
TO FIND |
| Capacity/Volume |
|
|
| cubic kilometers |
0.2399 |
cubic miles |
| cubic meters |
35.31 |
cubic feet |
| cubic meters |
1.308 |
cubic yards |
| cubic meters |
8.107 × 10−4 |
acre-feet |
| liters |
0.2642 |
gallons |
| liters |
33.81 |
fluid ounces |
| WHEN YOU KNOW |
MULTIPLY BY |
TO FIND |
| Area |
|
|
| hectares (10,000 square meters) |
2.471 |
acres |
| hectares (10,000 square meters) |
107,600 |
square feet |
| square meters |
10.76 |
square feet |
| square kilometers |
247.1 |
acres |
| square kilometers |
0.3861 |
square miles |
| WHEN YOU KNOW |
MULTIPLY BY |
TO FIND |
| Weight/Mass |
|
|
| kilograms |
2.205 |
pounds |
| metric tons |
2205 |
pounds |
| micrograms (μg) |
10−6 |
grams |
| milligrams (mg) |
10−3 |
grams |
|
| nanograms (ng) |
10−9 |
grams |
| TABLE 2. ALPHABETIC TABLE OF THE ELEMENTS |
| Symbol |
Element |
Atomic Number |
Atomic Mass* |
Symbol |
Element |
Atomic Number |
Atomic Mass* |
| *Atomic masses are based on the relative atomic mass of 12C=12. These values apply to the elements as they exist in materials of terrestrial origin and to certain artificial elements. Values in parenthesis are the mass number of the isotope of the longest half-life. |
| Ac |
Actinium |
89 |
(227) |
Mt |
Meitnerium |
109 |
(266) |
| Al |
Aluminum |
13 |
26.982 |
Md |
Mendelevium |
101 |
(258) |
| Am |
Americium |
95 |
(243) |
Hg |
Mercury |
80 |
200.59 |
| Sb |
Antimony |
51 |
121.75 |
Mo |
Molybdenum |
42 |
95.94 |
| Ar |
Argon |
18 |
39.948 |
Nd |
Neodymium |
60 |
144.24 |
| As |
Arsenic |
33 |
74.922 |
Ne |
Neon |
10 |
20.180 |
| At |
Astatine |
85 |
(210) |
Np |
Neptunium |
93 |
237.048 |
| Ba |
Barium |
56 |
137.33 |
Ni |
Nickel |
28 |
58.69 |
| Bk |
Berkelium |
97 |
(247) |
Nb |
Niobium |
41 |
92.908 |
| Be |
Beryllium |
4 |
9.012 |
N |
Nitrogen |
7 |
14.007 |
| Bi |
Bismuth |
83 |
208.980 |
No |
Nobelium |
102 |
(259) |
| Bh |
Bohrium |
107 |
(262) |
Os |
Osmium |
76 |
190.2 |
| B |
Boron |
5 |
10.811 |
O |
Oxygen |
8 |
15.999 |
| Br |
Bromine |
35 |
79.904 |
Pd |
Palladium |
46 |
106.42 |
| Cd |
Cadmium |
48 |
112.411 |
P |
Phosphorus |
15 |
30.974 |
| Ca |
Calcium |
20 |
40.08 |
Pt |
Platinum |
78 |
195.08 |
| Cf |
Californium |
98 |
(251) |
Pu |
Plutonium |
94 |
(244) |
| C |
Carbon |
6 |
12.011 |
Po |
Polonium |
84 |
(209) |
| Ce |
Cerium |
58 |
140.115 |
K |
Potassium |
19 |
39.1 |
| Cs |
Cesium |
55 |
132.90 |
Pr |
Praseodymium |
59 |
140.908 |
| Cl |
Chlorine |
17 |
35.453 |
Pm |
Promethium |
61 |
(145) |
| Cr |
Chromium |
24 |
51.996 |
Pa |
Protactinium |
91 |
231.036 |
| Co |
Cobalt |
27 |
58.933 |
Ra |
Radium |
88 |
226.025 |
| Cu |
Copper |
29 |
63.546 |
Rn |
Radon |
86 |
(222) |
| Cm |
Curium |
96 |
(247) |
Re |
Rhenium |
75 |
186.207 |
| Ds |
Darmastadtium |
110 |
(269) |
Rh |
Rhodium |
45 |
102.906 |
| Db |
Dubnium |
105 |
(262) |
Rb |
Rubidium |
37 |
85.47 |
| Dy |
Dysprosium |
66 |
162.50 |
Ru |
Ruthenium |
44 |
101.07 |
| Es |
Einsteinium |
99 |
(252) |
Rf |
Rutherfordium |
104 |
(261) |
| Er |
Erbium |
68 |
167.26 |
Sm |
Samarium |
62 |
150.36 |
| Eu |
Europium |
63 |
151.965 |
Sc |
Scandium |
21 |
44.966 |
| Fm |
Fermium |
100 |
(257) |
Sg |
Seaborgium |
106 |
(263) |
| F |
Fluorine |
9 |
18.998 |
Se |
Selenium |
34 |
78.96 |
| Fr |
Francium |
87 |
(223) |
Si |
Silicon |
14 |
28.086 |
| Gd |
Gadolinium |
64 |
157.25 |
Ag |
Silver |
47 |
107.868 |
| Ga |
Gallium |
31 |
69.723 |
Na |
Sodium |
11 |
22.990 |
| Ge |
Germanium |
32 |
72.61 |
Sr |
Strontium |
38 |
87.62 |
| Au |
Gold |
79 |
196.967 |
S |
Sulfur |
16 |
32.066 |
| Hf |
Hafnium |
72 |
178.49 |
Ta |
Tantalum |
73 |
180.948 |
| Hs |
Hassium |
108 |
(265) |
Tc |
Technetium |
43 |
(98) |
| He |
Helium |
2 |
4.003 |
Te |
Tellurium |
52 |
127.60 |
| Ho |
Holmium |
67 |
164.93 |
Tb |
Terbium |
65 |
158.925 |
| H |
Hydrogen |
1 |
1.008 |
Tl |
Thallium |
81 |
204.383 |
| In |
Indium |
49 |
114.82 |
Th |
Thorium |
90 |
232.038 |
| I |
Iodine |
53 |
126.905 |
Tm |
Thulium |
69 |
168.934 |
| Ir |
Iridium |
77 |
192.22 |
Sn |
Tin |
50 |
118.71 |
| Fe |
Iron |
26 |
55.847 |
Ti |
Titanium |
22 |
47.88 |
| Kr |
Krypton |
36 |
83.80 |
W |
Tungsten |
74 |
183.85 |
| La |
Lanthanum |
57 |
138.906 |
U |
Uranium |
92 |
238.029 |
| Lr |
Lawrencium |
103 |
(260) |
V |
Vanadium |
23 |
50.942 |
| Pb |
Lead |
82 |
207.2 |
Xe |
Xenon |
54 |
131.29 |
| Li |
Lithium |
3 |
6.941 |
Yb |
Ytterbium |
70 |
173.04 |
| Lu |
Lutetium |
71 |
174.967 |
Y |
Yttrium |
39 |
88.906 |
| Mg |
Magnesium |
12 |
24.305 |
Zn |
Zinc |
30 |
65.38 |
| Mn |
Manganese |
25 |
54.938 |
Zr |
Zirconium |
40 |
91.224 |
| TABLE 3. COMMON ABBREVIATIONS, SYMBOLS, AND ACRONYMS |
| ‚ |
' minute (of arc); single prime |
μmol; |
micromole |
| „ |
" second (of arc); double prime |
μs, μsec |
microsecond |
| + |
plus |
ν |
frequency |
| + |
positive charge |
υ |
velocity |
| − |
minus |
π or pi |
ratio of the circumference of a circle to its diameter; double as in double bond |
| − |
negative charge |
|
|
| ± |
plus-or-minus |
σ |
single as in single bond; Stefan-Boltzmann constant |
| ∓ |
minus-or-plus |
|
|
| × |
multiplied by |
Σ |
summation |
| · |
multiplied by |
Φ |
null set |
| ÷ |
divided by |
ψ |
amplitude of a wave (as in wave, or psi, function) |
| = |
equals |
→ |
reaction to right |
| ≠ |
not equal to |
← |
reaction to left |
| ∽ |
about, approximately |
↔ |
connecting resonance forms |
| ≅ |
congruent to; approximately equal to |
⇆ |
equilibrium reaction beginning at right |
| ≈ |
approximately equal to |
⇄ |
equilibrium reaction beginning at left |
| ≡ |
identical to; equivalent to |
⇌ |
reversible reaction beginning at left |
| < |
less than |
⇋ |
reversible reaction beginning at right |
| ≤ |
less than or equal to |
↑ |
elimination |
| > |
greater than |
⇓ |
absorption |
| ≥ |
greater than or equal to |
a |
acceleration |
| % |
percent |
A |
area |
| ° |
degree (temperature; angle of arc) |
ao |
Bohr Unit |
| @ |
at |
AAS |
atomic absorption spectroscopy |
| — |
single bond |
ABS |
alkylbenzene sulfate |
| = |
double bond |
ACS |
American Chemical Society |
| : : |
double bond |
ADH |
alcohol dehydrogenase |
| ≡ |
triple bond |
ADP |
adenosine diphosphate |
| : : : |
triple bond |
AEC |
Atomic Energy Commission |
| ∞ |
infinity |
AES |
atomic emission spectroscopy |
| ∝ |
variation |
AFM |
atomic force microscope; atomic force microscopy |
| ∂ |
partial derivative or differential |
|
| α |
proportional to, alpha |
AFS |
atomic fluorescence spectroscopy |
| √ |
square root |
ALDH |
aldehyde dehydronase |
| Δ |
delta; increment of a variable |
amp |
ampere |
| ε0 |
dielectric constant; permittivity |
AMS |
accelerator mass spectrometry |
| θ |
plane angle |
AMU |
atomic mass unit |
| λ |
wavelength |
atm. |
standard atmosphere (unit of pressure) |
| μ |
magnetic moment; micro |
ATP |
adenosine triphosphate |
| μA |
microampere |
β |
beta |
| μC |
microcoulomb |
b.p. |
boiling point |
| μF |
microfarad |
Btu |
British thermal unit |
| μg |
microgram |
c |
centi-; speed of light |
| μg/ml |
microgram per milliliter |
C |
carbon; Celsius; centigrade; coulomb |
| μK |
microkelvin |
C |
heat capacity; electric capacitance |
| μm |
micrometer (also called micron) |
|
| TABLE 3. COMMON ABBREVIATIONS, SYMBOLS, AND ACRONYMS [continued] |
| Ci |
Curies |
m |
meter; milli-; molal (concentration) |
| cm |
centimeter |
m |
mass |
| CT |
computed tomography |
M |
molar (concentration) |
| d |
d-orbital |
me |
electron mass |
| D |
dipole moment |
mA |
milliamperes |
| DC |
direct current |
mg |
milligram |
| deg |
degree |
mg/L |
milligrams per liter |
| dr |
diastereomer ratio |
MHz |
megahertz |
| e |
elementary charge |
min |
minute |
| E |
electric field strength; energy |
ml |
milliliter |
| Ea |
activation energy |
MO |
molecular orbital |
| Eg |
bandgap energy |
p |
p-orbital |
| EA |
electron affinity |
ω |
omega |
| er |
enantiomer ratio |
ppb |
parts per billion |
| eV |
electron volts |
ppm |
parts per million |
| f |
f-orbital |
ppt |
parts per trillion |
| F |
Fahrenheit; Faraday's constant; fluorine |
psi |
per square inch; English for ψ |
| F |
force |
q |
quantity |
| g |
gram |
REM |
Roentgen Equivalent Man (radiation-dose unit of measure) |
| g |
g-orbital; gas |
|
|
| h |
hour |
s |
solid; s-orbital |
| h |
Planck's constant |
S |
entropy |
| Hz |
hertz |
sec |
second; secant |
| i |
i-orbital |
SEM |
scanning electron microscope |
| IUPAC |
International Union of Pure and Applied Chemistry |
SI |
Système Internationale (International System of Measurements) |
| J |
joule |
SPM |
scanning probe microscope |
| J |
electric current density |
STM |
scanning tunneling microscope |
| k |
k-orbital |
STP |
standard temperature and pressue (˚C, 1 atm) |
| K |
degrees Kelvin; Kelvin; potassium |
Sv |
sievert unit (1 Sv = 100 REM; used to measure radiation dose) |
| Ka |
acidity constant for the dissociation of weak acid (the weaker the acid, the lower the Ka value |
t |
time |
| kB |
Boltzmann's constant |
T |
moment of force, thermodynamic temperature (in degrees Kelvin); torque |
| Kg |
kilogram |
Tc |
critical temperature |
| kHz |
kilohertz |
TEM |
transmission electron microscope |
| kJ |
kilojoule |
u |
unified atomic mass unit |
| kJ mol |
kilojoule mole |
U |
electric potential |
| km |
kilometer |
V |
electric potential; vanadium; volume |
| Km |
Michaelis constant |
V |
volt |
| l |
length; liquid |
vap. |
vaporization |
| L |
lambert; liter |
VB |
valence bond |
| L |
length; Avogadro's constant |
vel. |
velocity |
| LD |
lethal dose |
VSEPR |
valence shell electron pair repulsion |
| L/mole |
liters per mole |
Z |
atomic number |
| ln |
natural logarithm |
|
|
| log |
logarithm |
PERIODIC TABLE OF THE ELEMENTS*†
*Each element in the table is listed with (from top to bottom) its atomic number, its name, its symbol, and its atomic mass. Atomic mass numbers in parentheses are the mass numbers of the longest-lived isotope. Other atomic mass numbers are the average mass number of the naturally occurring isotopes.
†The names and labels for elements beyond number 103 are controversial. IUPAC initially ruled in favor of Latin names based on atomic number, but in 1994 a set of specific names and symbols was suggested. After considerable debate, a revised final list of names for elements 104–109 was issued on August 30, 1997. Temporary names were also assigned for elements 110 and 111. Various groups have suggested alternatives names for some of these elements. Additional elements continue to be synthesized, though with increasing difficulty, with no definite upper atomic-number limit yet established.
For Your Reference
©2004 by Macmillan Reference USA. Macmillan Reference USA is an imprint of The Gale Group, Inc., a division of Thomson Learning, Inc.
All rights reserved
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