Boltzmann's constant relates the average kinetic energy of particles in a gas with the temperature of the gas.
Boltzmann's constant (not bolt'z man's!) is 1.38064852*10-23 m2 kg s-2 K-1
The dimensions are [L^2MT^(-2)K^(-1)]whereL = lengthM = MassT = TimeK = Temperature
The value of the constant, better known as the Stefan–Boltzmann constant is given, in SI units byσ = 5.670373×10^−8 W m^−2 K^−4W = Wattsm = metresK = Kelvin
They are not the same, but related. From Wikipedia (article "gas constant"): " [The gas constant] is equivalent to the Boltzmann constant, but expressed in units of energy (i.e. the pressure-volume product) per temperature increment per mole (rather than energy per temperature increment per particle)".
m^2*kg*s^-2*K-1m = metres, kg = kilograms, s = seconds, K = Kelvin.
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It depends on the equation and the coefficient. Coefficients can be constant (Boltzmann constant, Avogadro's number) but they can also be variable (Reynolds number). The coefficient of gravity, g, is 9.81 m/s^2 in metric units on Earth.
In the SI system the radiation constant (Stefan-Boltzmann constant) is measured in W/m2.K4.
The relation between temperature and energy is given by the Boltzmann equation. Boltzmann found a consatn( called the boltzmann constant) that relates the two. That is Energy=k*T
Statistically treatment of the kinetic theory of gases. Hence the Boltzmann constant. Super major breakthrough.
The Boltzmann constant (kB or k), named after Ludwig Boltzmann, is a physical constant relating energy at the individual particle level with temperature.It is the gas constant R divided by the Avogadro constantIt has the same dimension (energy divided by temperature) as entropy. The accepted value in SI units is 1.3806488(13)×10−23 Joule/degree KFor more information refer to link below.
Boltzmann's constant (not bolt'z man's!) is 1.38064852*10-23 m2 kg s-2 K-1
I suppose you mean physical constants such as the Heisenberg constant, the Boltzmann constant, the gas constant, the electron charge and so on. As you can see such values are independent on what kind of experiment you have, where, when and how.
V_mp (most probable speed) = sqrt(2KT/m) where K is the Boltzmann constant
I'm pretty sure it has something to do with the Boltzmann constant, but I'm not completely sure.
The dimensions are [L^2MT^(-2)K^(-1)]whereL = lengthM = MassT = TimeK = Temperature
The value of the constant, better known as the Stefan–Boltzmann constant is given, in SI units byσ = 5.670373×10^−8 W m^−2 K^−4W = Wattsm = metresK = Kelvin