The molecular concerted decomposition of nitroalkanes was analyzed using the model of two intersecting parabolas. Parameters describing the activation energy of decomposition as a function of the enthalpy of the reaction were obtained. These parameters were used to calculate the activation energies of unstudied reactions of the decomposition of RNO2 and the activation energies and rate constants for reverse combination reactions between olefins and nitrous acid with the formation of the corresponding nitroalkanes. The concerted decomposition of nitroalkanes was also analyzed using another two-center model, in which decomposition was treated as two single-stage events, the transfer of H from the C-H bond to the O atom of the nitro group and the dissociation of the C-N bond accompanied by a shift of electrons in a five-membered reaction center. This approach and two elementary event models (a model of two intersecting parabolas and a model of the superposition of three parabolas) were used to calculate the spectrum of activation energies, in which each overall reaction event was characterized by an activation barrier of its own.