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Physical Constants

This chapter describes macros for the values of physical constants, such as the speed of light, c, and gravitational constant, G. The values are available in different unit systems, including the standard MKS system (meters, kilograms, seconds) and the CGS system (centimeters, grams, seconds), which is commonly used in Astronomy.

The definitions of constants in the MKS system are available in the file `gsl_const_mks.h'. The constants in the CGS system are defined in `gsl_const_cgs.h'. Dimensionless constants, such as the fine structure constant, which are pure numbers are defined in `gsl_const_num.h'.

The full list of constants is described briefly below. Consult the header files themselves for the values of the constants used in the library.

Fundamental Constants

GSL_CONST_MKS_SPEED_OF_LIGHT: The speed of light in vacuum, c.
GSL_CONST_MKS_VACUUM_PERMEABILITY: The permeability of free space, \mu_0
GSL_CONST_MKS_VACUUM_PERMITTIVITY: The permittivity of free space, \epsilon_0.
GSL_CONST_NUM_AVOGADRO: Avogadro's number, N_a.
GSL_CONST_MKS_FARADAY: The molar charge of 1 Faraday.
GSL_CONST_MKS_BOLTZMANN: The Boltzmann constant, k.
GSL_CONST_MKS_MOLAR_GAS: The molar gas constant, R_0.
GSL_CONST_MKS_STANDARD_GAS_VOLUME: The standard gas volume, V_0.
GSL_CONST_MKS_GAUSS: The magnetic field of 1 Gauss.
GSL_CONST_MKS_MICRON: The length of 1 micron.
GSL_CONST_MKS_HECTARE: The area of 1 hectare.
GSL_CONST_MKS_MILES_PER_HOUR: The speed of 1 mile per hour.
GSL_CONST_MKS_KILOMETERS_PER_HOUR: The speed of 1 kilometer per hour.

Astronomy and Astrophysics

GSL_CONST_MKS_ASTRONOMICAL_UNIT: The length of 1 astronomical unit (mean earth-sun distance), au.
GSL_CONST_MKS_GRAVITATIONAL_CONSTANT: The gravitational constant, G.
GSL_CONST_MKS_LIGHT_YEAR: The distance of 1 light-year, ly.
GSL_CONST_MKS_PARSEC: The distance of 1 parsec, pc.
GSL_CONST_MKS_GRAV_ACCEL: The standard gravitational acceleration on Earth, g.
GSL_CONST_MKS_SOLAR_MASS: The mass of the Sun.

Atomic and Nuclear Physics

GSL_CONST_MKS_ELECTRON_CHARGE: The charge of the electron, e.
GSL_CONST_MKS_ELECTRON_VOLT: The energy of 1 electron volt, eV.
GSL_CONST_MKS_UNIFIED_ATOMIC_MASS: The unified atomic mass, amu.
GSL_CONST_MKS_MASS_ELECTRON: The mass of the electron, m_e.
GSL_CONST_MKS_MASS_MUON: The mass of the muon, m_\mu.
GSL_CONST_MKS_MASS_PROTON: The mass of the proton, m_p.
GSL_CONST_MKS_MASS_NEUTRON: The mass of the neutron, m_n.
GSL_CONST_NUM_FINE_STRUCTURE: The electromagnetic fine structure constant \alpha.
GSL_CONST_MKS_RYDBERG: The Rydberg constant, Ry, in units of energy. This is related to the Rydberg inverse wavelength R by Ry = h c R.
GSL_CONST_MKS_BOHR_RADIUS: The Bohr radius, a_0.
GSL_CONST_MKS_ANGSTROM: The length of 1 angstrom.
GSL_CONST_MKS_BARN: The area of 1 barn.
GSL_CONST_MKS_BOHR_MAGNETON: The Bohr Magneton, \mu_B.
GSL_CONST_MKS_NUCLEAR_MAGNETON: The Nuclear Magneton, \mu_N.
GSL_CONST_MKS_ELECTRON_MAGNETIC_MOMENT: The absolute value of the magnetic moment of the electron, \mu_e. The physical magnetic moment of the election is negative.
GSL_CONST_MKS_PROTON_MAGNETIC_MOMENT: The magnetic moment of the proton, \mu_p.

Measurement of Time

GSL_CONST_MKS_MINUTE: The number of seconds in 1 minute.
GSL_CONST_MKS_HOUR: The number of seconds in 1 hour.
GSL_CONST_MKS_DAY: The number of seconds in 1 day.
GSL_CONST_MKS_WEEK: The number of seconds in 1 week.

Imperial Units

GSL_CONST_MKS_INCH: The length of 1 inch.
GSL_CONST_MKS_FOOT: The length of 1 foot.
GSL_CONST_MKS_YARD: The length of 1 yard.
GSL_CONST_MKS_MILE: The length of 1 mile.
GSL_CONST_MKS_MIL: The length of 1 mil (1/1000th of an inch).

Nautical Units

GSL_CONST_MKS_NAUTICAL_MILE: The length of 1 nautical mile.
GSL_CONST_MKS_FATHOM: The length of 1 fathom.
GSL_CONST_MKS_KNOT: The speed of 1 knot.

Printers Units

GSL_CONST_MKS_POINT: The length of 1 printer's point (1/72 inch).
GSL_CONST_MKS_TEXPOINT: The length of 1 TeX point (1/72.27 inch).

Volume

GSL_CONST_MKS_ACRE: The area of 1 acre.
GSL_CONST_MKS_LITER: The volume of 1 liter.
GSL_CONST_MKS_US_GALLON: The volume of 1 US gallon.
GSL_CONST_MKS_CANADIAN_GALLON: The volume of 1 Canadian gallon.
GSL_CONST_MKS_UK_GALLON: The volume of 1 UK gallon.
GSL_CONST_MKS_QUART: The volume of 1 quart.
GSL_CONST_MKS_PINT: The volume of 1 pint.

Mass and Weight

GSL_CONST_MKS_POUND_MASS: The mass of 1 pound.
GSL_CONST_MKS_OUNCE_MASS: The mass of 1 ounce.
GSL_CONST_MKS_TON: The mass of 1 ton.
GSL_CONST_MKS_METRIC_TON: The mass of 1 metric ton (1000 kg).
GSL_CONST_MKS_UK_TON: The mass of 1 UK ton.
GSL_CONST_MKS_TROY_OUNCE: The mass of 1 troy ounce.
GSL_CONST_MKS_CARAT: The mass of 1 carat.
GSL_CONST_MKS_GRAM_FORCE: The force of 1 gram weight.
GSL_CONST_MKS_POUND_FORCE: The force of 1 pound weight.
GSL_CONST_MKS_KILOPOUND_FORCE: The force of 1 kilopound weight.
GSL_CONST_MKS_POUNDAL: The force of 1 poundal.

Thermal Energy and Power

GSL_CONST_MKS_CALORIE: The energy of 1 calorie.
GSL_CONST_MKS_BTU: The energy of 1 British Thermal Unit, btu.
GSL_CONST_MKS_THERM: The energy of 1 Therm.
GSL_CONST_MKS_HORSEPOWER: The power of 1 horsepower.

Pressure

GSL_CONST_MKS_BAR: The pressure of 1 bar.
GSL_CONST_MKS_STD_ATMOSPHERE: The pressure of 1 standard atmosphere.
GSL_CONST_MKS_TORR: The pressure of 1 torr.
GSL_CONST_MKS_METER_OF_MERCURY: The pressure of 1 meter of mercury.
GSL_CONST_MKS_INCH_OF_MERCURY: The pressure of 1 inch of mercury.
GSL_CONST_MKS_INCH_OF_WATER: The pressure of 1 inch of water.
GSL_CONST_MKS_PSI: The pressure of 1 pound per square inch.

Viscosity

GSL_CONST_MKS_POISE: The dynamic viscosity of 1 poise.
GSL_CONST_MKS_STOKES: The kinematic viscosity of 1 stokes.

Light and Illumination

GSL_CONST_MKS_STILB: The luminance of 1 stilb.
GSL_CONST_MKS_LUMEN: The luminous flux of 1 lumen.
GSL_CONST_MKS_LUX: The illuminance of 1 lux.
GSL_CONST_MKS_PHOT: The illuminance of 1 phot.
GSL_CONST_MKS_FOOTCANDLE: The illuminance of 1 footcandle.
GSL_CONST_MKS_LAMBERT: The luminance of 1 lambert.
GSL_CONST_MKS_FOOTLAMBERT: The luminance of 1 footlambert.

Radioactivity

GSL_CONST_MKS_CURIE: The activity of 1 curie.
GSL_CONST_MKS_ROENTGEN: The exposure of 1 roentgen.
GSL_CONST_MKS_RAD: The absorbed dose of 1 rad.

Force and Energy

GSL_CONST_MKS_NEWTON: The SI unit of force, 1 Newton.
GSL_CONST_MKS_DYNE: The force of 1 Dyne = 10^-5 Newton.
GSL_CONST_MKS_JOULE: The SI unit of energy, 1 Joule.
GSL_CONST_MKS_ERG: The energy 1 erg = 10^-7 Joule.

Prefixes

These constants are dimensionless scaling factors.

GSL_CONST_NUM_YOTTA: 10^24
GSL_CONST_NUM_ZETTA: 10^21
GSL_CONST_NUM_EXA: 10^18
GSL_CONST_NUM_PETA: 10^15
GSL_CONST_NUM_TERA: 10^12
GSL_CONST_NUM_GIGA: 10^9
GSL_CONST_NUM_MEGA: 10^6
GSL_CONST_NUM_KILO: 10^3
GSL_CONST_NUM_MILLI: 10^-3
GSL_CONST_NUM_MICRO: 10^-6
GSL_CONST_NUM_NANO: 10^-9
GSL_CONST_NUM_PICO: 10^-12
GSL_CONST_NUM_FEMTO: 10^-15
GSL_CONST_NUM_ATTO: 10^-18
GSL_CONST_NUM_ZEPTO: 10^-21
GSL_CONST_NUM_YOCTO: 10^-24

Examples

The following program demonstrates the use of the physical constants in a calculation. In this case, the goal is to calculate the range of light-travel times from Earth to Mars.

The required data is the average distance of each planet from the Sun in astronomical units (the eccentricities of the orbits will be neglected for the purposes of this calculation). The average radius of the orbit of Mars is 1.52 astronomical units, and for the orbit of Earth it is 1 astronomical unit (by definition). These values are combined with the MKS values of the constants for the speed of light and the length of an astronomical unit to produce a result for the shortest and longest light-travel times in seconds. The figures are converted into minutes before being displayed.

#include <stdio.h>
#include <gsl/gsl_const_mks.h>

int
main (void)
{
  double c  = GSL_CONST_MKS_SPEED_OF_LIGHT;
  double au = GSL_CONST_MKS_ASTRONOMICAL_UNIT;
  double minutes = GSL_CONST_MKS_MINUTE;

  /* distance stored in meters */
  double r_earth = 1.00 * au;  
  double r_mars  = 1.52 * au;

  double t_min, t_max;

  t_min = (r_mars - r_earth) / c;
  t_max = (r_mars + r_earth) / c;

  printf("light travel time from Earth to Mars:\n");
  printf("minimum = %.1f minutes\n", t_min / minutes);
  printf("maximum = %.1f minutes\n", t_max / minutes);

  return 0;
}

Here is the output from the program,

light travel time from Earth to Mars:
minimum = 4.3 minutes
maximum = 21.0 minutes

References and Further Reading

Further information on the values of physical constants is available from the NIST website,

http://www.physics.nist.gov/cuu/Constants/index.html

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