Reletions between partial moduli of smoothness of functions with monotone Fourier coefficients

The problem of estimating the moduli of smoothness of functions from Lqin terms of moduli of smoothness from the broader Lebesgue class Lph as been known for a long time. At the initial stage, in the works of Titchmarsh, Hardy, Littlewood, Nikolsky, the properties of functions from Lipschitz classes were studied and the corresponding embeddings were obtained. For moduli of continuity of functions of one variable P.L. Ulyanov proved an inequality later named after him - "Ulyanov’s inequality". The classical Hardy-Littlewood embedding for Lipschitz spaces is a consequence of Ulyanov’s inequality. As V.A. Andrienko showed, Ulyanov’s inequality is exact in the scale of classes Hωp. Further development of this direction is connected with the works of V.A. Andrienko, E.A. Storozhenko, M.K.Potapov, L. Leindler, V.I. Kolyada, P. Oswald, N. Temirgaliev, S.V. Lapin and other mathematicians. Kolyada proved that Ulyanov’s inequality can be strengthened and proved the corresponding "Kolyada’s inequality". Kolyada’s inequality is exact in the sense that there exists a function in Lp with any given order of the modulus of continuity for which this estimate cannot be improved for any value of δ .Yu.V. Netrusov, M.L. Goldman and W. Trebelz extended Kolyada’s inequality to the moduli of smoothness of higher orders. Another direction of research was the study of fractional moduli of smoothness in the works of M.K. Potapov, B.V. Simonov, S.Yu. Tikhonov. This made it possible to strengthen the Ulyanov inequality and showed the specificity and special significance of using fractional moduli of smoothness, without which, as it turned out, it was impossible to obtain final results. In this article, we study partial moduli of smoothness of functions of two variables. Inequalities are obtained that extend Kolyada’s inequality to partial moduli of smoothness for functions with monotone Fourier coefficients. Estimates are also obtained for the partial moduli of smoothness of the derivative ofa function with monotone Fourier coefficients in terms of the partial moduli of smoothness of the original function.