Search
Menu
Opto Diode Corp. - Opto Diode 10-24 LB

Physical Constants & Conversion Factors

Facebook X LinkedIn Email
Physical Constants & Conversion Factors

Length [I]

1 meter (m) = 39.3700 in. = 3.280833 ft = 1.093611 yd
1 kilometer (km) = 0.6213711 mi = 0.53996 nautical mi
1 micron (µm) = 10−6 m = 10−4 cm = 104 Å = 39.3700 x 10−6 in.
1 nanometer (nm) = 10−7 cm = 10−9 m = 10−3 µm = 10 Å
1 angstrom (Å) = 10−8 cm = 10−10 m = 10−4 µm = 3.937 x 10−9 in.
1 inch (in.) = 1000 mil = 2.54 cm
1 foot (ft) = 30.48 cm = 1.89394 x 10−4 mi
1 yard (yd) = 0.9144 m
1 fathom = 6 ft = 1.828804 m
1 mile (mi) = 1760 yd = 5280 ft = 6.3360 x 104 in. = 1.609344 km = 0.868979 nautical mi
1 nautical mi = 1852 m = 6076.10333 ft = 1.15078 mi
1 light-year (l.y.) = 5.8804 x 1012 mi = 9.46073 x 1012 km = 0.307 parsec

Area [I2]

1 cm2 = 10−4 m2 = 10.764 x 10−4 ft2 = 0.15500 in.2
1 km2 = 0.3861006 mi2 = 247.1044 acres
1 circular mil = area of circle 1 mil in diameter = 0.78540 sq mil = 10−6 circular in.
1 in2 = 6.4516 cm2 = 1.27324 x 106 circular mil
1 yd2 = 9 ft2 = 0.8361274 m2
1 mi2 = 3.0976 x 106 yd2 = 640 acres = 2.589998 x 106 m2
1 acre = 43,560 ft2 = 10 sq chains = 4046.873 m2

Volume [I3]

1 cm3 = 0.061023 in.3 = 0.03381 fl oz
1 liter (L) = 1000.027 cm3 = 33.8147 fl oz = 1.05671 qt (liquid) = 0.26418 gal
1 ft3 = 1728 in.3 = 0.02831685 m3 = 7.481 gal = 0.80357 bushel
1 gallon (gal) = 231 in.3 = 0.13368 ft3 = 3.785412 L
1 quart (qt) = 32 fl oz = 0.9463529 L
1 pint (pt) (liquid) = 0.5 qt = 28.875 in.3 = 0.4731765 L
1 fluid ounce (fl oz) = 29.57353 mL

Time [t]

1 week = 7 days = 168 h = 10,080 min = 604,800 s
1 day = 1440 min = 86,400 s
1 calendar year = 365 days = 8760 h = 5.256 x 105 min = 3.1536 x 107 s
1 year sidereal = 365.256 days = 8766.14 h = 3.155815 x 107 s

Velocity [It−1]

1 m/s = 2.2369 mi/h
1 mi/h = 1.4667 ft/s = 0.8690 knots = 1.609344 km/h = 0.44704 m/s
1 knot = 1 nautical mi/h = 1.1508 st mi/h = 1.6878 ft/s = 0.5144444 m/s

Angular Velocity [t−1]

1 rad/s = 0.1592 rev/s = 9.549 rpm = 57.296 deg/s
1 rpm = 0.01667 rev/s = 0.1047198 rad/s = 6 deg/s

Acceleration [It−2]

1 ft/s2 = 30.48 cm/s2 = 0.6818 mi/h-s

Angle

1 radian (rad) = 360°/2π = 57.29608 deg = 103 angular mil
1 degree (deg) = 60 min = 0.01745329 rad
1 minute (min) = 60 s = 2.908882 x 10−4 rad
1 mil = 360/6400 deg = 0.05625 deg = 9.817477 x 10−4 rad
1 s slope = 4.848 microinch/in. = 0.001 in./17.19 ft
1 solid angle = 4π steradians = 12.566 steradians = 1 sphere
1 steradian = 0.079580 solid angle

Mass [m]

1 gram (g) = 2.20462 x 10−3 lb (av) = 0.03527 oz (av) = 15.4324 grains
1 pound (lb) avoirdupois (av) = 16 oz (av) = 7000 grains = 256 drams (av) = 453.5924 g
1 ounce (oz) (av) = 16 drams (av) = 437.5 grains = 28.34952 g
1 short ton = 2000 lb (av) = 907.1847 kg = 20 hundredweight (short)
1 long ton = 2240 lb (av) = 1016.047 kg = 20 hundredweight (long)

Density [ml−3]

1 lb/ft3 = 5.787 x 10−4 lb/in.3 = 16.01846 kg/m3 = 1.6018 x 10−2 g/cm3
1 g/cm3 = 0.03613 lb/in.3 = 64.23 lb/ft3

Pressure [ml−1t−2]

1 atmosphere (atm) = 1.0133 bar = 14.696 lb/in.2 = 1.01325 x 106 dyn/cm2 = 760 Torr = 1033.2 g/cm2 (0 °C) = 760
     mm Hg (0 °C) = 29.921 in./ Hg (0 °C) = 33.903 ft water (0 °C) = 1.01325 x 105 Pa
1 dyn/cm2 = 1.01971 x 10−3 g/cm2 = 1.4504 x 10−5 lb/in.2 = 0.1 Pa
1 bar = 1.0 x 106 dyn/cm2 = 0.98692 atm
1 pound-force per square inch (psi) (lbf/in.2) = 70.307 g/cm2 = 6.894757 x 104 dyn/cm2

Temperature

temperature differences: Δ1 °Celsius (C) = Δ1.8 °Fahrenheit (F) = Δ1.8°Rankine (R) = Δ1 kelvin (K) = Δ0.8
    Δ1.8°Rankine (Ra) = Δ1 kelvin (K) = Δ0.8°Réaumur (Re)
0 °C = 273.15 K = 32 °F = 492 °R = 0°Re
100 °C = 373.15 K = 212 °F = 671.67 °Ra = 80 °Re
0 K = 273.15 °C = -459.67 °F = 0°Ra = −218.52 °Re

Force [mIt−2]

1 Newton = 1 x 105 dyn = 0.22481 lbf
1 dyn = 2.2481 x 10−6 lbf = 7.2330 x 10−5 poundal (pdl) = 0.0010197 g wt
1 g wt = 0.07932 pdl = 980.665 dyn = 2.2046 x 10−3 lb wt
1 lbf = 32.174 pdl = 453.59 g wt = 4.4482 N
1 pdl = 0.031081 lbf = 14.098 g wt = 1.382550 x 10−1 N

Work and energy [ml−2t−2]

1 Joule (J) = 1 N meter (N•m) 1 x 107 ergs = 1 x 107 dyn cm = 1 W•s = 1 V coulomb = 0.73756 ft lbf = 2.3889 x

Lambda Research Optics, Inc. - CO2 Replacement Optics
     10−4 kg cal (mean) = 9.4708 x 10−4 Btu (mean) = 23.730 ft pdl = 2.778 x 10−7 kWh − 3.725 x 10−7 hp h
1 calorie (International Table) = 4.1868 J
1 calorie (thermochemical) = 4.184 J
1 calorie (15°C) = 4.18580 J (abs) = 0.003968 Btu
1 kWh = 3413.0 Btu (mean) = 2.6552 x 106 ft lb = 1.3410 hp h = 3.6 x 106 J
1 liter atm (normal) = 3.7745 x 10−5 hp h = 24.206 g cal (mean) = 101.328 J
1 atomic mass unit (amu) = 931.16 MeV = 1.65983 x 10−24 g mass (energy equiv.)
1 electon volt (eV) = 1.60207 x 10−19 J

Power [ml−2t−3]

1 Btu (mean)/min = 0.023575 hp = 17.580 W (abs) = 778.0 ft•lbf/min
1 erg/s = 1 x 10−7 W = 1.34 x 10−10  hp = 5.688 x 10−9 Btu (mean)/min = 1.4333 x 10−9 kg cal (mean)/min =
     7.3756 x 10−8 ft•lbf/s
1 hp (U.K.) = 0.70696 Btu (mean)/s = 550 ft•lbf/s = 745.70 W = 10.688 kg-cal (mean)/min
1 hp (electric) = 746 W

Torque [ml2t−2]

1 dyn•cm = 1.0197 x 10−8 kfg•m = 7.3756 x 10−8 lbf•ft = 8.8507 x 10−7 lbf•in
1 kgf•m = 9.8066 x 107 dyn•cm
1 lbf•ft = 1.355818 x 107 dyn•cm
1 pdl•ft = 4.2140 x 105 dyn•cm
1 lbf•in = 1.1298 x 106 dyn•cm
1 lbf•ft = 1.3558 N•m

Physical Constants

h = Planck's constant = 6.62607004 x 10−34 J s
Ro = molar gas constant = (8.314472±0.000015) J/K•mol
k = Boltzmann constant = (1.3806505±0.0000024) x 10−23 J/K
σ = Stefan-Boltzmann constant = (5.670400±0.000040) x 10−8 w/m2K4
c = speed of light in a vacuum = 2.99792458 x 108 m/s = 186,284 mi/s
F = Faraday constant = (96,485.3383±0.0083) C/mol
e = elementary charge = (1.60217653±0.00000014) C
e/m = specific elementary charge = (1.75888±0.00005) x 1011 abs coulombs/kg
Na = Avogadro constant = (6.0221415±0.0000010) x 1023/mol
αo = h2/4πme2 = Bohr radius = (5.29177±0.0000000018) x 10−10 m
εo = 1/µoc2 = electric constant = 8.854187817 x 10−12 farad/m
µo = permeability of free space = 4π:(4)(3.14) = 12.5664 x 10−7 henry/m

Miscellaneous Constants & Conversions

Density of water 3.98 °C, 760 mm Hg = 0.03613 lb/in.3 = 62.43 lb/ft3 = 1 g/ml = 0.999973 g/cm3
Density of air (STP) = 1.293 x 10−3 g/cm3
STP = standard temperature & pressure = 0 °C & 760 mm Hg
Water heat of fusion (0 °C) = 79.71 g-cal (15 °C)/g
Water heat of vaporization (100 °C) = 539.55 g-cal (15 °C)/g
Molar volume (STP) = 359 ft3/lb-mole = (22.4207±0.0006) liters/g-mole (physical scale)
Velocity of sound: in air (STP) = 331.7 m/s = 1088 ft/s
                              in water (20 °C) = 1470 m/s = 4823 ft/s
Attenuation of sound in air (STP-37% RH) = δ≅6 x 10−14 dB (kc)2/ft
Viscosity of water (20 °C) = 1.002 centipoise = 0.01002 dyn-s/cm2
1 curie activity = 3.7 x 1010 disintegrations/s = 3.7 x 104 Rutherford
1 roentgen (r) radiation damage = ionization by x- or gamma rays producing 1 esu of charge in 1 cm3 air (STP)
1 barn cross section = 10−24 cm2
Ratio physical (016  = 16) to chemical scale (0 = 16) of atomic weights = 1.000272±0.000005
M = mass of earth = 5.983 x 1024 kg = 6.595 x 1021 tons
Interference fringe = 11.6 microinches/fringe (He line = 5875.6a)
π = 3.1415926535+
e = 2.7182818284+
Logen = loge 10 x log10n = 2.3026 log10n
1 kWh ≅4.2 x 10−5 g U235 in fission
           ≅6.4 x 10−6 g H3 in H3 (d,n) He4 reaction
           ≅average noon insolation in 1 h on horizontal plane of 1 m2
           ≅0.74 lb (highest power station efficiency on 12,500 Btu/lb coal)
Zo(µo/εo)1/2 = impedance of free space = (376.731±0.001) ohm (Ω)
G = Newton's grav constant = (6.670±0.005) x 10−8 cm3/g-s
g = acceleration due to gravity (standard) = 32.174 ft/s2 = 980.665 cm/s2 = 386.09 in./s2 = 21.94 mi/ h-s
Rest energy of the electron = 0.51098 MeV
Electron mass = (9.1085±0.0006) x 10−28 g = 0.51098 MeV = 5.48760 x 10−4 AMU
Proton mass = (1.67243±0.00010) x 10−24 g = 938.232 MeV = 1.007593 AMU
Neutron mass = (1.67474±0.00010)± 10−24 g = 939.526 MeV = 1.008982 AMU
α particle mass = (6.6442±0.0012) x 10−24 g = 3727.377 MeV = 4.00294 AMU
H1 atom mass = (1.67335±0.00010) x 10−24 g = 938.743 MeV = 1.008142 AMU

Glossary
torque
A calculated measure of the ability of an incident force to cause an object to spin. The spin speed of any given object is a direct function of the duration of the torque application.
angular velocityBasic SciencedensityenergyGeneral Referencetorque

We use cookies to improve user experience and analyze our website traffic as stated in our Privacy Policy. By using this website, you agree to the use of cookies unless you have disabled them.