During the last decade, production and adoption of nano-aggregations and nano-inclusions have become actual in electronics, medicine, space engineering and many other branches of production. In this connection, the necessity of studying the nano-subject resistance, stiffness, defectology, durability has emerged. Which of the techniques are best applicable? Feasibility of applying the traditional methods of Newtonian Mechanics, which have been developed and tested for centuries, is widely discussed. However, the researchers’ opinions differ much: some of the scientists think it impossible to use this method, others are apt to employ the traditional techniques entirely without any amendments. In our opinion, the truth is in the following thesis: the traditional methods of the Mechanics could be used to solve nanotechnology problems, but still with certain corrections. And here the question arises about appropriateness of using the traditional mechanical and physical parameters of nano-subjects.