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how does the rate law show how concentration changes after the rate of reaction
8.314 J/mol K
Rate of flow varies as R^4 where R is the radius or Rate of flow = (k) x (R^4)
Boltzmann's constant (not bolt'z man's!) is 1.38064852*10-23 m2 kg s-2 K-1
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
how does the rate law show how concentration changes after the rate of reaction
Dynamite exploding
exploding dynamite
A relative rate constant the rate at which a reaction will take place. Ex. V = k [A][B] the constant ,k, is a constant value for the rate of the reaction in said equation.
how does the rate law show how concentration changes after the rate of reaction
Paper burning
First order rate constant k is described in V=k[EA] while second order rate constant is given as V=k[E][A]. For reactions that do not have true order, k is the apparent rate constant.
A rate constant
The rate constant (k) of a reaction is temperature-dependent according to the Arrhenius equation. Therefore, specifying the temperature is necessary to accurately determine the rate constant and predict the reaction rate at that specific temperature. Changes in temperature can significantly influence the rate constant and overall reaction kinetics.
A relative rate constant the rate at which a reaction will take place. Ex. V = k [A][B] the constant ,k, is a constant value for the rate of the reaction in said equation.
k=Rate/[A^m][B^n]
Values of general gas constant are: (value dependant on units) R = 0.08205746 [atm. ℓ.mol-1.K-1] R = 8.314472 [Pa.m3.mol-1.K-1 or J.mol-1.K-1] R = 1.99 [Cal.mol-1.K-1]