Electrical engineering does involve a significant amount of math. Electrical engineers use advanced math and science concepts, such as calculus, differential equations, and physics, to design and analyze electrical systems. These concepts are used to understand how electricity flows through circuits and to model and predict the behavior of electrical systems.

In a bachelor’s degree program in electrical engineering, students will typically take a number of math and science courses, including calculus, differential equations, linear algebra, and physics. These courses provide a strong foundation in the math and science concepts that are essential for success in electrical engineering.

It is important for an electrical engineer to have strong math skills, as math is a fundamental tool that is used throughout the field. Electrical engineers use math to analyze and design electrical systems, to model and predict the behavior of electrical systems, and to troubleshoot and solve problems.

However, it is important to note that electrical engineering is not just about math. Electrical engineers also need to have strong problem-solving skills, attention to detail, and good communication skills, as well as proficiency with computer programs and technology. They must be able to apply their math and science knowledge to practical problems and work effectively with others to develop solutions.