This paper delves into the study of vector spaces defined over the ring P, a commutative ring with zero divisors generated by two real numbers. By systematically constructing vector spaces over P, a commutative ring with zero divisors, this research delves deeper into the algebraic framework to comprehensively analyze linear transformations and mappings defined within this context. The study not only establishes foundational principles for the existence and behavior of such mappings but also examines their structural properties and interactions, thereby providing a rigorous framework for further theoretical exploration and application in algebraic systems involving P. Leveraging the unique factorization property of zero divisors in P, the paper establishes an existence theorem for linear mappings on P, thereby providing a significant advancement in understanding the interplay between vector spaces and the structural properties of P. The findings not only deepen theoretical understanding of algebraic structures associated with P but also pave the way for further investigations into the broader implications of such structures. This work contributes a foundational perspective for future research in abstract algebra and its potential applications.

Yuxun Zeng, Zengrui Kang. Existence Theorems for Linear Mappings on Hypercomplex Number Systems. Academic Journal of Mathematical Sciences(2025), Vol. 6, Issue 1: 82-90. https://doi.org/10.25236/AJMS.2025.060110.

[1] Hayes, Sandra. Quadratic dynamics over hyperbolic numbers: A BRIEF SURVEY[J]. Surveys in mathematics and its applications,2022,17:269-275.

[2] Blankers, Vance, Rendfrey, Tristan, Shukert, Aaron, et al. Julia and Mandelbrot Sets for Dynamics over the Hyperbolic Numbers[J]. Fractal and fractional,2019,3(01).

[3] Kumar, Sujeet, Tripathy, Binod Chandra.Double Sequences of Bi-complex Numbers [J]. Proceedings of the national academy of sciences India section a-physical sciences, 2024,94(04):463-469.

[4] Atmai, Rachid, Kizer-Pugh, Curtis, Shipman, Barbara A. Capstone Studies for Math Majors via Complex and Hyperbolic Numbers[J]. Primus,2023,33(06):602-621. 

[5] Debrouwere, Andreas, Neyt, Lenny. An extension result for (LB)-spaces and the surjectivity of tensorized mappings[J]. Annali di matematica pura ed applicata,2024,203(04):1753-1781.

[6] Kushnir, Alexey, Liu, Shuo. On Linear Transformations of Intersections[J]. Set-valued and variational analysis,2020,28(03):475-489.

[7] Liu Yujia, Zhou Xiaohui. Several "Visualization" Teaching Cases in Linear Algebra Instruction [J]. Advanced mathematics research, 2024, 27(01): 85-90. 

[8] Fang Longfei, Wang Bing. A Brief Discussion on the Matrix Representation and Applications of Linear Mappings under Different Bases [J]. Mathematics learning and research, 2021, (13): 10-11.

[9] Pogorui, Anatoliy A., RodriguezDagnino, Ramon M. Telegraph Process on a Hyperbola[J]. Journal of statistical physics, 2023,190(07).

[10] Robson, Barry, St Clair, Jim. Principles of Quantum Mechanics for Artificial Intelligence in medicine. Discussion with reference to the Quantum Universal Exchange Language (Q-UEL) [J]. Computers in biology and medicine, 2022,143.

[11] Kobayashi, Masaki. Reducibilities of hyperbolic neural networks[J]. Neurocomputing, 2020, 378:129-141. 

[12] TellezSanchez, G. Y., BoryReyes, J. Extensions of the shannon entropy and the chaos game algorithm to hyperbolic numbers plane[J]. fractals-complex geometry patterns and scaling in nature and society,2021,29(01).