5622910
Descripción
Fichas por Sergio Martinez, actualizado hace más de 1 año
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Creado por Sergio Martinez
hace casi 8 años
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| Pregunta | Respuesta |
| W | thermodynamic probability |
| T | temperature |
| Boltzmann Law | ratio of particles in any two levels to the difference of energy between levels nj/ni = e^-deltaE/k*T predicts the MPD for a system |
| degeneracy | when two levels have the same energy, their populations are equivalent |
| n0 | population of the lowest level : n0 = n(1-e^deltaE/KT) |
| j | number of populated levels : j = ln[n(1-e^-deltaE/kT)] / (deltaE / KT) |
| k | Boltzmann constant : 1.381*10^-23 J/K |
| R | ideal gas constant : 8.31451 J/mol*K |
| microstate | a specific way that particles and energy can be arranged within a system |
| continuous weak coupling | constant collisions between particles where they can transfer energy |
| Ea | activation energy : assuming j = the energy level a particle needs to reach in order to react, deltaE from i=0 to i=j is the same as the Ea |
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