Friedland podometry is a method for measuring the similarity of two figures that was developed in the 1940s by German mathematician Fritz Friedland. This method is used to determine the similarity of shapes and can be applied in various fields, including geometry, physics, architecture and design.
Friedland's podometry is based on the idea that two figures can be similar if they have the same proportions and relationships between their sides and angles. To measure similarity, Friedland proposed using the similarity coefficient, which is the ratio of the length of one side of a figure to the length of the other side or corner.
To use Friedland podometry, we need to know the length of each side or corner of the figure that we want to compare with another figure. We can then calculate the similarity coefficient for each pair of sides or angles and compare their values. If the similarity coefficients are equal, then the figures are similar.
The use of Friedland podometry can be useful in various situations, such as comparing the sizes of buildings, determining the proportions of architectural elements, assessing the shape and size of objects, etc. This method can also be used to solve various problems in physics, such as determining the shape and size of objects in three-dimensional space.
Overall, Friedland podometry is a simple and effective method for measuring shape similarity, which can be useful in various fields of science and technology.
English 
Chinese 
Spanish 
Indonesian 
French 
Portuguese 
Russian 
Japanese 
Turkish 
Deutsch 
Vietnamese 
Italian 
Polish 
Ukrainian 
Korean 
Dutch 
Swedish 
Azerbaijani 
Hungarian 
Bulgarian 
Norwegian 
Finnish 
Greek 
Czech 
Danish 