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From physics to electrical engineering

in this post, you will discover the methods you can use to switch or transmit from physics to electrical engineering.

Can you become an electrical engineer with a physics degree?

Yes, you can work as an electrical engineer with a physics degree. There are many opportunities for physicists in the electrical engineering field.

Physicists who want to work in electrical engineering can find many opportunities in both the private and public sectors. The skills that physicists bring ta o the table, such as a solid foundation in electricla engineering topics such as electricity, magnetism, electromagnetism, and material science is critical making them well-suited for electrical engineering careers.

In addition, physicists can do very well in this field because they have a strong foundation in mathematics even better than engineers themselves.

In order to become an electrical engineer with a physics background, you need to go back to taking some undergrad courses. meaning going back to school and getting a degree in electricla engineering.

it won’t take a full 4 years because most math and physics courses you studied in your physics major are the same in electricla engineering.

The other option is to take a master’s after getting your physics bachelor’s. but you still have a need for some undergrad courses to finally apply for grad electrical engineering masters.

You will also need to have some experience in the field, so you can be familiar with the latest technologies and practices.

For people who love theory like abstract math and theory research, Electrical engineering will not be a good fitting because it is more hands-on.

Electrical engineers need to be able to apply the theories they learn in class to real-world situations. They also need to be able to think on their feet and come up with solutions to problems quickly.

how to become an electrical engineer with a physics degree?

to become an electrical engineer with a physics degree you have to famous path:

1 – apply for your jobs with your physics degree

With a physics degree in hand, you have a range of exciting job opportunities open to you. One such option is software engineering, where you would develop and maintain software applications.

Hardware engineering is also a viable option, where you would design and build electronic systems. you will be working in the embedded system industry. working in lab design sensors, by working in optics process or in semiconductor companies.

Embedded system design is a specific domain within hardware engineering that focuses on systems that are integrated into other devices, such as cars or cell phones.

With your physics degree, you can apply for jobs in all of these fields and still have the opportunity to find a job with your physics degree.

2 – enroll in master’s or accredited programs

If you are looking to become a certified electrical engineer, you will need to complete an accredited program. After getting your physics degree, you could enroll in a master’s or accredited program that accepts physics degrees.

This will allow you to gain the necessary knowledge and skills to work in this field by taking some additional courses, especially focusing on practice. Electrical engineering is a growing field, so there are many opportunities for you to find a job once you finish your master’s.

Do you need physics for electrical engineering

Yes, you need a lot of physics to do electrical engineering, but You don’t have to study all the physics major to become an electrical engineer, you will have to take physics classes as part of your engineering curriculum.

Electrical engineering is the field of engineering that deals with the design and application of systems that generate, use, and control electric power.

Physics is the foundation of all engineering disciplines, so you will need to understand basic principles such as force, energy, and motion.

However, you will not learn how to solve complex mathematical and physics problems in electrical engineering classes, especially in modules like electricity and electromagnetism.

Electrical engineers use these physics foundations to design circuits and analyze system performance.

In the next paragraph, we’ll be talking in detail about how much electrical engineering involves physics courses.

How much physics in electrical engineering

in the electricla engineering course you will be taking these 5 principal physics courses:

1 – electricity basics

in the electricity basics, you will have an introduction to the electric field and how it is created.

You will learn about voltage, current, and resistance, and how to calculate electric fields using physics laws.

you will be discovering some famous physics laws like ohm laws, Kirchoff law, etc.

2 – electromagnetism

Electromagnetism is important in electrical engineering because it governs the behavior of electric fields and magnetic fields. Electrical fields are responsible for the movement of electric charges, while magnetic fields are responsible for the movement of magnetic materials.

By understanding electromagnetism, engineers can design devices and systems that rely on electric and magnetic fields for operations we use in our days like motors, computers, etc.

3 – Solid state physics

Electrical engineers study Solid state physics as the study of the physical properties of materials that are in a solid state.

These materials can include metals, semiconductors, and insulators. Solid state physics can help us understand how these materials behave and how they can be used in electronics and other applications.

4 – semiconductor design

Semiconductor design is the process by which electronic devices like transistors and chips are created. It relies on principles of physics to create structures that can carry an electric current.

By understanding the principles of how electricity flows through materials, semiconductor designers are able to create more efficient and powerful electronic devices.

5 – signal processing and transmission

Signal processing and transmission is a process of taking an input signal, such as sound or light, and manipulating it in some way before sending it through a transmission medium, such as air or a wire.

This manipulation can include amplifying the signal, altering its frequency, or compressing it to save bandwidth. The goal of signal processing is usually to improve the quality of the signal or to make it easier to transmit.

Signal processing and transmission have applications in physics and many industrial fields like: