Best Applied Mathematics Degree Programs of 2022
Learn more about the top Applied Mathematics programs, what to expect, job prospects, and how to choose the program that’s right for you.
Learn more about the top Applied Mathematics programs, what to expect, job prospects, and how to choose the program that’s right for you.
Applied mathematics is the study of mathematics that is used in the real world. Applied mathematics degrees can prepare students for a variety of careers in science, engineering, and business.
Applied mathematics degrees offer a broad overview of mathematics, covering topics such as calculus, linear algebra, and differential equations. Students in applied mathematics degree programs learn about the different ways in which mathematics can be applied to solve real-world problems. They also learn about the different software programs that are used to solve those problems.
When it comes to choosing the right applied mathematics bachelors degree program, there are a few key factors that students need to keep in mind. The first is the cost of the program. Applied mathematics programs can vary in cost, so it is important to research the tuition and fees of each program before making a decision. The second factor to consider is the length of the program. Most applied mathematics programs take four years to complete, but there are some accelerated programs that can be completed in less time. The third factor to consider is the curriculum of the program. Applied mathematics programs typically include a mix of mathematics, statistics, and computer science courses. Students should make sure that the program they choose offers the courses they are interested in. Finally, students should consider the location of the program. Some programs may be offered online, while others may be offered at a physical campus. Students should choose a program that is convenient for them.
The best programs for Applied Mathematics ranking is based on key statistics and student reviews using data from the U.S. Department of Education. Some of the metrics influencing how the rankings are determined include graduation rate, average salary for graduates, accreditation, retention rate, and cost.
The Bachelor of Science in Applied Mathematics from Columbia University is a highly flexible and intensive program that prepares students for graduate study and careers in which mathematical and technical skills are important. Students take a combination of required and elective courses from mathematics, computer science, physics, earth and environmental sciences, biophysics, economics, business, and finance, and can tailor their program to fit their personal and career interests. The program includes a seminar series that students must attend during their junior and senior years, and provides opportunities for students to gain real-world experience through internships and other hands-on learning opportunities.
The Bachelor of Science in Applied Mathematics from Northwestern University is designed to provide students with the knowledge necessary to apply mathematical concepts and techniques to problems in engineering and science. The flexible program allows students to focus a substantial portion of their coursework in mathematics or one or more areas of application, such as engineering, computer science, or operations research.
The Bachelor of Science in Applied Mathematics degree from Oregon Institute of Technology is a great choice for students who want to use their mathematical skills to solve real-world problems. The program emphasizes critical thinking, technology, and communication skills, and provides students with the knowledge and skills necessary for immediate employment or acceptance into a graduate program. The core of the program is mathematical and technical, providing students with a solid foundation for future learning.
The Bachelor of Science in Applied Mathematics at American University is a rigorous program that prepares students for careers in mathematics and statistics. Students must complete courses in calculus, linear algebra, differential equations, and probability, as well as a statistics course.
The Bachelor of Science in Pure and Applied Mathematics from Stevens Institute of Technology is a great choice for students interested in a career in mathematics. The program covers a broad range of mathematical topics, from proofs and abstract analysis to applied and computational mathematics to statistics. Students in the program will develop the skills and understanding needed to utilize complex algorithms to predict and analyze uncertain events, extract insights from large datasets, study the dynamics of pharmaceuticals in the body, and forecast public opinions.
The University of Colorado Boulder’s Bachelor of Science in Applied Mathematics program prepares students for careers in a wide range of fields. The curriculum emphasizes both mathematics and computing, giving students the skills they need to be successful in the job market. Students can choose to specialize in an area of application, such as computational mathematics, probability and statistics, or nonlinear phenomena. The program also provides excellent preparation for graduate studies in engineering, science, business, or medicine.
The Bachelor of Science in Applied Mathematics from SUNY at Fredonia is a degree program that prepares students to use the tools and concepts of mathematics and statistics to solve problems in the real world. The program offers three areas of focus: finance and economics, statistics and data, or science. Students can also choose to pursue a second major or minor in an area of application. The program also offers advisement and coursework for Actuarial Science.
The Bachelor of Science in Applied Mathematics from Arizona State University is an interdisciplinary program that provides students with a broad and rigorous foundation in applied mathematics. The program includes a foundation in computing and statistics as well as both theoretical and applied mathematics. The program emphasizes quantitative problem-solving and critical thinking through courses that expose students to a variety of mathematical theories, techniques and applications currently used by analysts and researchers in government, industry and nonprofit organizations.
The Bachelor of Science in Applied Mathematics from Rochester Institute of Technology is a degree that focuses on solving problems that can be mathematically analyzed. This degree is perfect for those who want to work in fields such as science, engineering, business, or government. Students will have the opportunity to work with researchers in the School of Mathematical Sciences studying interesting problems in areas such as computational photonics, mathematical biology, microelectromechanical systems, and network analysis.
The Bachelor of Science in Applied Mathematics from CUNY is designed for students interested in mathematics and real-world problem-solving. The program is quite versatile and provides graduates with the skills needed to adapt to a rapidly changing work environment. The program contains three options: information science, financial science and science. Students must complete a set of common required courses as well as one of the three sequences. A two-semester internship is also required, which is essential for finding employment.
Students in a bachelor’s in applied mathematics program learn to use mathematical concepts and methods to solve real-world problems in various fields, such as business, engineering, and the sciences. The degree typically takes four years to complete and requires about 120 credits.
Most programs begin with general education courses in topics like English, history, and the humanities. Students then move on to more specialized courses in mathematics, statistics, and computer science. Many programs also require an internship or practicum, giving students the opportunity to apply their knowledge in a real-world setting.
Applied mathematics is a broad field, and students can often choose from several concentration options. Common concentrations include actuarial science, financial mathematics, and operations research.
Prospective students should have strong problem-solving skills and be able to think abstractly. They should also be comfortable working with numbers and be able to handle complex mathematical concepts.
The courses you will take for an applied mathematics degree will depend on the school you attend and the program you choose. However, there are some common courses that are frequently taught in applied mathematics programs. The following list explores five of these courses.
This course covers the study of linear equations and their solutions in n-dimensional vector spaces. Topics include vector spaces, linear independence, bases, dimension, subspaces, linear transformations, determinants, eigenvalues and eigenvectors, diagonalization, inner product spaces, Gram-Schmidt process, and applications. Upon completion, students should be able to solve systems of linear equations, find the inverse of a matrix, determinants, eigenvalues/eigenvectors, and apply linear algebra to solve problems.
This course covers limits, continuity, derivatives, integrals, and infinite series of functions of one variable. Vectors and vector-valued functions are also introduced. Applications are included throughout the course. Upon completion, students should be able to find limits, derivatives, and integrals of functions and use them to solve problems.
This course covers the study of probability, statistics, random variables, and their distributions. Emphasis is placed on data collection, analysis, and interpretation; probability; discrete and continuous random variables; expected values; sampling distributions; estimation; hypothesis testing; regression analysis; and analysis of variance. Upon completion, students should be able to apply the principles of probability and statistics to real-world situations.
This course covers the solution of differential equations with an emphasis on applications in the physical sciences. Topics include first and higher order differential equations, numerical methods, series solutions, Laplace transforms, and partial differential equations. Upon completion, students should be able to use a variety of methods to solve differential equations and apply those methods to problems in the physical sciences.
This course covers the principles of argumentation, including the construction of valid arguments and the identification and avoidance of fallacious reasoning. Emphasis is placed on analyzing and evaluating arguments, both formal and informal. Upon completion, students should be able to construct valid arguments and identify and avoid fallacious reasoning.
Graduates of applied mathematics programs work in a variety of industries, including engineering, finance, and computer science. They may also work in fields such as education, research, and development.
Mathematicians use their knowledge of mathematics to solve problems in a variety of fields, such as science, engineering, business, and finance. They may work on problems in pure mathematics, such as finding new ways to solve equations, or they may work on applied mathematics, which involves solving real-world problems. Mathematicians often use computers to help them solve problems, and they may also develop new computer algorithms. Some mathematicians work in academia, teaching and conducting research at colleges and universities. Others work in government, industry, or finance.
Statisticians collect, analyze, and interpret data. They use their findings to help solve real-world problems in a variety of fields, such as business, finance, healthcare, education, and sports. Statisticians typically have a strong foundation in mathematics and computer science, and they use their skills to design experiments, surveys, and other data-gathering methods; to collect and clean data; to run statistical analyses; and to communicate their findings to others.
Actuaries are professionals who assess risk and its financial impact on businesses and other organizations. They use their understanding of mathematics, statistics, and financial theory to calculate the likelihood of future events, and they help businesses and clients develop policies that minimize the cost of those events. Actuaries typically work in the insurance industry, but they can also be found in the public sector, in management consulting, and in other financial services firms.
Data analysts collect, organize, and analyze data to help their organization make better decisions. They might work with financial data, consumer behavior, logistics, or other types of data. Data analysts typically use statistical methods and software to analyze data, and they often create reports, charts, and graphs to visualize their findings. Their work can help organizations make more informed decisions about everything from product development to marketing to customer service.
Mathematics teachers typically work in middle schools and high schools, teaching students the basics of mathematical concepts, including algebra, geometry, and trigonometry. They develop lesson plans, deliver lectures, lead class discussions, and assign and grade classwork and homework. In addition to their teaching responsibilities, mathematics teachers often serve as academic advisors, meet with parents, and perform other administrative tasks.
Mikaela Hull is a Data Analyst at Facebook. She has a bachelor’s degree in applied mathematics from the University of Washington. Mikaela has over 3 years of experience in data analysis and modeling.
ClimbtheLadder: What would you recommend that students do in addition to their degree program, in order to stand out to employers?
Mikaela Hull: I would recommend that students get involved in as many extracurricular activities as possible, especially those that relate to their field of study. For example, if you’re interested in data analysis, try to find a club or organization on campus that deals with data in some way.
This will not only make you more well-rounded and marketable to employers, but it will also give you a chance to explore your interests and figure out what you’re really passionate about.
ClimbtheLadder: What type of person is successful and thrives in an Applied Mathematics career?
Mikaela Hull: I would say that a successful person in an Applied Mathematics career is someone who is able to think abstractly and see the world in terms of mathematical models. They are also good at problem-solving and have the ability to work with large data sets.
ClimbtheLadder: What misconception(s) do people have about an Applied Mathematics degree, and what would you tell them?
Mikaela Hull: I think the biggest misconception is that an Applied Mathematics degree is only for people who want to be mathematicians or statisticians. While those are certainly viable career paths, there are so many other options out there for people with an Applied Mathematics degree.
I would tell people to not be afraid to explore different options and to talk to people with a variety of backgrounds to see what they can do with their degree.