Comparison of coupling constant by using momentum spectra and event shape variables in different interactions

We describe in this paper the quantum chromodynamics prediction to calculate the strong coupling constant by using event shape variables as well as momentum spectra. By fitting the dispersive model and employing our parameters on event shape distribution, we obtain the perturbative value of alpha(s)(M-Zo) = 0.1305 +/- 0.0474 and also the non-perturbative value of alpha(o) = 0.5246 +/- 0.0516 GeV for electron-proton interactions. Next, by using momentum spectra for the same interactions, we obtain alpha(s) = 0.1572 +/- 0.029. Our values in both methods are consistent with those obtained from electron-positron annihilations measured previously. When we find coupling constant for different flavours, we observe that they do not affect our results considerably. This is in accordance with quantum chromodynamics theory. All these features will be explained in the main text.