Derivatives and Differentials of Multivariable Functions: A Theoretical and Applied Analysis

Авторы

DOI:

https://doi.org/10.69760/lumin.2026002002

Ключевые слова:

multivariable functions, partial derivatives, total differential, gradient, chain rule, Clairaut’s theorem, linear approximation

Аннотация

This article presents a comprehensive theoretical and applied investigation of derivatives and differentials of multivariable functions within the framework of higher mathematics. The study examines partial derivatives of functions of two and n variables, develops the concepts of the total differential and the gradient, and establishes the key properties governing these operations, including linearity, the product and quotient rules, the chain rule, and the equality of mixed partial derivatives (Clairaut’s theorem). The theoretical exposition is supported by three worked examples covering polynomial, trigonometric, and logarithmic multivariable functions. The geometric interpretation of the total differential as the tangent-plane approximation is discussed alongside its practical applications in physics, chemistry, and engineering. The findings confirm that multivariable derivatives and differentials constitute a foundational tool for local behaviour analysis, extremum problems, and linear approximation in applied science and engineering contexts.

Биографии авторов

  • Nubar Qocayeva , Nakhchivan State University, Azerbaijan

    Qocayeva, N. Senior Lecturer, Nakhchivan State University, Azerbaijan. Email: qocayevanubar4@gmail.com. ORCID: https://orcid.org/0009-0007-3457-9160

  • Mətin Həsənov , Nakhchivan State University, Azerbaijan

    Həsənov, M. Student, Nakhchivan State University, Azerbaijan. Email: mtinhsnov19@gmail.com. ORCID: https://orcid.org/0009-0007-2405-3501 

Библиографические ссылки

Adams, R. A., & Essex, C. (2018). Calculus: A complete course (9th ed.). Pearson Education.

Apostol, T. M. (1969). Calculus: Vol. 2. Multi-variable calculus and linear algebra with applications (2nd ed.). John Wiley & Sons.

Mammadov, R. H. (1978). Course of higher mathematics: Part I [in Azerbaijani]. Maarif.

Marsden, J. E., & Tromba, A. J. (2012). Vector calculus (6th ed.). W. H. Freeman.

Minorsky, V. P. (1978). A collection of problems in higher mathematics [in Russian]. Nauka.

Namazov, G. M. (2012). Higher mathematics: Part I [in Azerbaijani]. Baku Business University Press.

Piskunov, N. S. (1969). Differential and integral calculus (Vol. 1). Mir Publishers.

Salimov, Y. S., & Sabzaliyev, M. M. (2003). Problems in higher mathematics: Part I [in Azerbaijani]. ADPU Press.

Shipachev, V. S. (2005). Course of higher mathematics [in Russian]. Vysshaya Shkola.

Stewart, J. (2016). Multivariable calculus (8th ed.). Cengage Learning.

Загрузки

Опубликован

2026-04-14

Выпуск

Том 3 № 2 (2026): Summer

Раздел

Articles

Лицензия

Copyright (c) 2026 Luminis Applied Science and Engineering

Лицензия Creative Commons

Это произведение доступно по лицензии Creative Commons «Attribution» («Атрибуция») 4.0 Всемирная.

Как цитировать

Qocayeva , N., & Həsənov , M. (2026). Derivatives and Differentials of Multivariable Functions: A Theoretical and Applied Analysis . Luminis Applied Science and Engineering, 3(2), 13-21. https://doi.org/10.69760/lumin.2026002002

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