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Math Courses at Texas A&M University

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James Brandon

The Department of Mathematics at Texas A&M University offers instruction that leads to bachelor's, master's, and doctoral degrees in mathematics. At the undergraduate level, students are offered various courses that contribute to them achieving math majors and future careers in STEM fields.

A notable alumnus from the math program at Texas A&M is Hunter Ducharme. He graduated with a BS in Mathematics in 2019 and currently works as an Aerospace Engineer at Odyssey Space Research, LLC. Just like Hunter, current and future students can benefit from the math program at the institution.

Below are some of the math courses offered at the institution.

1. MATH 150 - Functions, Trigonometry and Linear Systems

A math student at Texas A&M solving a mathematics problem on a white board .

This course introduces students to the concepts of Functions, Trigonometry, and Linear Systems. Students will be exposed to various topics including graphs, functions, college algebra and trigonometry, linear systems, and vectors. The course is instructed by Alexandra L. Foran and is recommended for freshmen-year students that wish to pursue a major in mathematics. Students that wish to enroll in the course need to attain a satisfactory grade in the placement exam.

2. MATH 168 - Finite Mathematics

The building hosting the department of mathematics at Texas A&M

This course, instructed by Priyanga Ganesan, discusses the concepts related to finite mathematics. Some of the topics tackled in the course include linear equations and their applications, systems of linear equations, matrix algebra and its applications, linear programming, probability, and statistics. The course is recommended for students who wish to pursue a major in math and other math-related programs. The prerequisites for this course are high school algebra I and II and geometry.

3. MATH 221 - Several Variable Calculus

Mathematics students at Texas A&M

Students taking this course will discuss the concepts related to the calculus of several variables. Michael P. Brannan, the course instructor, will introduce students to various topics such as vector algebra and solid analytic geometry, calculus of functions of several variables, Lagrange multipliers, multiple integrations, and line and surface integrals among others. The concepts learned in the course can be applied in various professional fields such as economics and engineering. Students need to complete MATH 148, MATH 152, or MATH 172 before enrolling in the course.

4. MATH 225 - Advanced Spreadsheet Techniques

A screenshot of an excel spreadsheet

This course teaches students the advanced techniques used when using spreadsheets. The class is highly practical as students will interact with different spreadsheet software including Excel. Students will learn how to use advanced commands, formatting skills, and the functionality of spreadsheets. The course instructed by Joe E. Kahlig is recommended for students that wish to pursue a major in mathematics or applied mathematics majors.

5. MATH 308 - Differential Equations

A "Differential Equations" textbook cover

Students in this course will discuss the concepts related to differential equations. Some of the topics covered in the course include ordinary differential equations, solutions in series, solutions using Laplace transforms, and systems of differential equations. The course is taught by
William Rundell and is applicable in engineering, computer science, economics, physics, and finance professional fields. The prerequisites for the course include MATH 221, MATH 251, or MATH 253.

6. MATH 367 - Basic Concepts of Geometry

A math concept poster written Intro to Geometry

The fundamental concepts of geometry will be introduced in this course. Instructed by Robert Gustafson, the course discusses topics like the formal development of geometry including Euclidean and non-Euclidean. The course is designed for students that wish to pursue careers as elementary mathematics teachers. The prerequisite for the course is MATH 366 or equivalent

7. MATH 323 - Linear Algebra

Linear algebraic equations written on a black board

Students enrolled in this course will be introduced to the concepts and applications of linear algebra. Under the instructions of Grigoris Paouris, students will cover various topics including linear equations and matrices, real vector spaces, linear transformations, change of bases, determinants, eigenvalues and eigenvectors, and diagonalization. The course can be applied in computer science, engineering, data science, economics, and physics-related professional fields. MATH 148, MATH 152 or MATH 172 are the prerequisites for this course.

8. MATH 407 - Complex Variables

A Complex Variables textbook cover

Instructed by Mohamad R. Masri, this course discusses concepts in complex variables including the fundamental theory of analytic functions, residues, and their applications. Before enrolling in the course, students must satisfy the requirements in MATH 221, MATH 251, or MATH 253. The course is applicable in various professional fields including engineering, biology, and physics.

9. MATH 411 - Mathematical Probability

A word art written probability

Students in this course will be introduced to the concepts of mathematical probability. The course instructor, Jeffrey Kuan, will guide students in discussing topics like probability spaces, discrete and continuous random variables, special distributions, joint distributions, expectations, the law of large numbers, and the Central Limit Theorem. The course is applicable in various professional fields like statistics, finance, physics, artificial intelligence, computer science, and game theory. The prerequisite for this course is MATH 221, MATH 251, or MATH 253.

10. MATH 417 - Numerical Methods

A "Numerical Methods" textbook cover

This course is instructed by Bojan Popov. He introduces students to concepts related to numerical methods and their applications. Topics like numerical methods for applications, a qualitative discussion of convergence and stability properties, computer implementation, interpolation and quadrature, and initial value problems among others will be discussed in the course. Students that wish to enroll in the course need to first satisfy requirements in MATH 304, MATH 309, MATH 311, or MATH 323; andMATH 308. The course is applicable in engineering and computer science-related fields.

With the above information, students can know a bit more about the math courses offered here. Those who wish to pursue math programs should explore more math courses by checking out the institution’s website!


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