Metrography is a science that studies the metro state of matter and nature as a whole. It appeared at the end of the 20th century and is based on the quantum relativistic approach, which shows that the properties of elementary particles and the connections between them can be described on the basis of their quantum mechanical properties and interdependencies.
One of the most interesting aspects of metrography is that it allows us to describe both levels of quantum mechanics simultaneously. So, for example, quantization of an electromagnetic field requires a description of photons quantumly, and an electromagnetic wave can also be described statistically. In metrographic science
Metrography is a method for studying the spatial organization of the urban environment. This method is a type of geoscenography and is based on the use of special metric scales that make it possible to quantitatively describe the features of territorial space. The methodology of metrography is based on an approach that examines the relationship between objects of various metrics in space, or the degree of regularity in the location of the latter. The metrograph records the distance between the observed object and its location using the corresponding readings on the metric scale. The methodology of metrographic analysis involves the use of various means of depicting the study area. Therefore, this method is one of the analytical tools that is quite diverse in terms of species composition and can be used for urban areas of various scales and with varying degrees of detail. It is necessary to note the special role of metrographic methods in the study of urban objects in the study of the architectural environment and urban objects. A significant contribution to the development of this discipline was made by the works of domestic architects in the field of describing the properties of the city in general and its residential environment in particular. These works aroused increased interest in the methodology of this method in the West and, in particular, served as an impetus for clarifying the measurement scale for the metric assessment of the state of cities. The use of the metrophysical method makes it possible to study many significant indicators important for urban planning, namely the placement of urban elements, the intensity of their use, condition, the natural environment in the urban environment and the relationship between them. Thus, the use of the metrographic analysis method allows us to identify problems of the organization and evolution of urban space at different stages of the design of urban life: from planning and designing cities to their administrative management and development. The results of metrographic studies are of great practical importance for the development