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This creates the "arithmetization" of mathematics. Secondly, there has been a veritable explosion in all branches of mathematics. -
Quaternion analysis was developed as a research tool in the physical sciences and many new theorems were established in quaternion analysis that can be translated to modern vector analysis -
After graduating from the Tate in 1852, he became a Fellow of Peterhouse College, Cambridge, where he began writing many of his books and was W.J. Style of the book Particle Dynamics. -
Maxwell is the author of his four major works on electricity. The results published in these works, especially those related to the electromagnetic field concept, suggested mathematical problems that could be solved by quaternion analysis, although he did not use them as such. -
Maxwell first proposed his famous equation written in component notation, and in his 1873 Treatise on Electricity and Magnetism he wrote it in both component notation and quaternion notation. -
Maxwell first proposed his famous equation written in component notation, and in his 1873 Treatise on Electricity and Magnetism he wrote it in both component notation and quaternion notation. -
This is his famous article "On the mathematical classification of physical quantities", in which Maxwell explains in depth why the mathematical classification of physical quantities is important, with special attention to the classification of physical units into scalars and vectors. -
He developed quaternion analysis as a tool for research in the physical sciences and created many new theorems in quaternion analysis that can be translated to modern vector analysis. -
Vector analysis is widely accepted, as evidenced by the fact that a significant number of major publications describe vector analysis systems as distributed. -
He is known as a great reader and writer of scientific books (he has written 22 books in whole or in part) and as a prolific scientific researcher. He has published 365 papers, of which about 70 are on quaternions.