In today’s data-driven economy, mathematics plays a significant role in the bottom line of industrial enterprises and helps firms perform better. A career in **applied mathematics** is more than just crunching numbers. It’s being able to use mathematics to solve real-life problems and make an impact in the world.

**Growing fields to consider and look deeper into**

**Systems Biology**

A career in this sector might entail using a variety of mathematical and computational techniques. The employment of advanced mathematical and computational techniques, for example, is required to map and comprehend the human genome.

New and improved technologies make research faster and less expensive, resulting in new job possibilities in technology, health, and medication development.

**Data Mining **

Data mining allows the discovery of patterns and previously unknown information in large data sets. These field applications may be found in domains including security, forensics, e-commerce, bioinformatics and genomics, astronomy, medicine, and chemical and electrical engineering, among others.

**Materials Science**

**Materials science** is the study of the properties, processing, and production of a broad range of existing and new materials, including metallic alloys, composites,… Mathematical models and computational tools are required for the rational design and study of materials. Career opportunities abound in science, manufacturing, and materials design for applications in fields such as aerospace, engineering, electronics, biology, and nanotechnology.

**Computer Animation and Digital Imaging**

Computer animation is an eclectic science that uniquely combines mathematics, computer science, fine art, classical animation, physics, biomechanics and anatomy.

Computer animation algorithms make extensive use of techniques from scientific computation, statistics, signal processing, linear algebra, control theory, and computational geometry. There are numerous paths and professional options to pursue with a broad and interesting set of applications to fields such as medical diagnostics, entertainment and fine arts.

**Finance and Economics**

Financial mathematics is the development of quantitative techniques and computational models used in the financial industry. Banks, insurance businesses, investment and securities firms, energy companies, government agencies,…have grown to rely on applied mathematics and computer science.

Sophisticated math models and the computational methods and skills needed to implement their support investment decisions, develop and price new securities, manage risk, and for portfolio selection, management, and optimization.

**Ecology and Epidemiology**

Professionals in these disciplines may examine populations and their interactions and model them as differential equation systems that may be used to simulate illnesses in human populations. Other applications in these fields include the management of ocean fisheries and the study of insect population growth, spread, and reaction to insecticides.

**Climatology**

**Climatology** is based on modelling the constituent factors that drive the climate, such as ocean circulation and heat exchange between land, air, and water. It necessitates the use of extremely sophisticated models based on physical principles and represented as complicated partial differential equations.

These are implemented in very large-scale numerical codes on high-performance computers, and use data from observations of satellites and other monitoring equipment to drive the solutions.