Amorphisms example sentences

"Amorphisms" Example Sentences

1. Homomorphisms and isomorphisms are types of amorphisms in mathematical theory.
2. The introduction of amorphisms in algebraic structures has expanded the area of study greatly.
3. The distinction between different types of amorphisms is important in category theory.
4. The concept of amorphisms has been applied to the study of group theory.
5. The relationship between amorphisms and homomorphisms is complex and requires careful analysis.
6. The study of amorphisms in topology has yielded important results.
7. The use of amorphisms in graph theory has revolutionized the field.
8. A thorough understanding of amorphisms is essential in computational complexity theory.
9. The concept of amorphisms has been used to study the behavior of cellular automata.
10. The study of amorphisms in abstract algebra has resulted in many significant discoveries.
11. The development of amorphisms has allowed for greater flexibility in mathematical modeling.
12. The use of amorphisms in category theory has facilitated the study of structures with similar properties.
13. An amorphism is a special class of functions that preserve certain properties of the underlying structure.
14. The study of amorphisms has provided insights into the behavior of mathematical systems.
15. Amorphisms are important tools in the study of algebraic structures.
16. Understanding the relationship between amorphisms and other mathematical concepts is essential for advanced research.
17. The use of amorphisms has been a key factor in the development of many areas of mathematics.
18. Amorphisms allow for the construction of mathematical models that accurately represent complex structures.
19. The study of amorphisms has helped to identify important symmetries and patterns in mathematical structures.
20. The application of amorphisms has led to many important discoveries in number theory.
21. The use of amorphisms has made it possible to study the properties of mathematical structures under a wide variety of conditions.
22. The concept of amorphisms has been used to study the behavior of dynamical systems.
23. The study of amorphisms has provided new insights into the nature of mathematical structures.
24. The development of amorphisms has allowed for the effective analysis of complex mathematical systems.
25. Amorphisms have been applied in a wide range of different fields, from computer science to physics.
26. The study of amorphisms has contributed to the development of many important mathematical tools and techniques.
27. A thorough understanding of amorphisms is essential for those working in advanced mathematical fields.
28. The use of amorphisms has allowed for the accurate modeling of complex systems across a wide range of different fields.
29. The concept of amorphisms has facilitated the development of mathematical structures that accurately reflect real-world phenomena.
30. The introduction of amorphisms has greatly expanded the scope of mathematics, allowing for the study of a wide variety of different structures and systems.

Common Phases

- Topological amorphism;
- Biological amorphism;
- Geometric amorphism;
- Linguistic amorphism;
- Chemical amorphism;
- Atmospheric amorphism;
- Cultural amorphism;
- Digital amorphism;
- Emotional amorphism;
- Political amorphism;
- Psychological amorphism;
- Societal amorphism.