Math with Python : A Context of Algebra
Aiyenitaju, Olaniyi; Majhi, Sarita (2024)
Aiyenitaju, Olaniyi
Majhi, Sarita
2024
Julkaisun pysyvä osoite on
https://urn.fi/URN:NBN:fi:amk-202403144428
https://urn.fi/URN:NBN:fi:amk-202403144428
Tiivistelmä
Examining the mutually beneficial link between algebra and Python, this study seeks to solve computational difficulties and improve the efficiency of algebraic operations. Navigating Python's symbolic algebraic complexity is the task at hand. These include computation-intensive problems, numerical accuracy problems, and huge expression handling problems. The main conclusions centre on constructive avenues for future research and contributions to the subject. We suggest directions to further improve algebraic symbolic performance, explore quantum algebraic computing, develop specialised Python algebraic libraries, combine machine learning with algebraic tasks, and create interactive educational tools. These discoveries close gaps in the present Python environment and provide creative answers to computational problems. Overall, this work is important since it sets the path for future Python algebraic exploration projects. This study moves algebraic techniques in a programming context forward by addressing the obstacles faced and offering innovative solutions. The possible uses cover a wide range of industries, including cutting-edge areas like quantum computing as well as scientific research and teaching. As background, the study discusses the fundamental value of algebra in mathematics and presents Python as a powerful tool for manipulating algebra. We examine fundamental algebraic operations, equations, functions, and Python algebraic applications. The difficulties and constraints that are faced highlight the necessity of using Python for algebraic work with subtle approaches.