What kind of engineering involves the most physics?

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SUMMARY

The engineering fields that involve the most physics are primarily materials science, electrical engineering, and applied engineering physics. Materials science applies solid state physics and often incorporates quantum mechanics in research. Electrical engineering focuses on semiconductor physics and device design, while applied engineering physics encompasses similar work across these domains. For those interested in modern physics, pursuing additional courses in physics departments is advisable to deepen understanding, especially in quantum mechanics.

PREREQUISITES
  • Understanding of modern physics concepts, particularly quantum mechanics.
  • Familiarity with materials science and solid state physics.
  • Knowledge of semiconductor physics within electrical engineering.
  • Basic principles of applied engineering physics.
NEXT STEPS
  • Research advanced topics in materials science focusing on quantum mechanics applications.
  • Explore semiconductor physics in electrical engineering, particularly in device design.
  • Investigate applied engineering physics programs and their curriculum offerings.
  • Take additional courses in quantum mechanics from physics departments to enhance engineering knowledge.
USEFUL FOR

Students considering a career in engineering, particularly those interested in the intersection of physics and engineering disciplines such as materials science, electrical engineering, and applied physics.

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What kind of engineering involves the most physics? It focus on modern physics is the best.
 
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It's not easy to answer this question with regard to broad fields. It generally depends on the specific situation. For instance, an Electrical Engineer could be working on an embedded systems problem that poses more programming/computation challenges than "modern physics" ones. On the other hand, they could be working on how to reduce chip size without allowing quantum tunneling to affect reliability.

Are you looking for an engineering field to study? More specifics about what you're curious about would be helpful in answering your question.
 
No easy answer. It depends on the job I'm sure. If you like physics go into physics.
 
If you are interested in doing physics, then as sandplasma says, go into physics.

If you are interested in applying modern physics to design new materials, devices, etc., then the primary options I can think of are:

materials science - much of materials science is effectively applied solid state physics. Some modern materials science academic research involves designing materials starting with quantum mechanics.

electrical engineering - semiconductor physics, materials design, device design. Lasers and quantum optics are sometimes in EE departments.

applied / engineering physics - can do similar work as all of the above, depending upon department.

Of course, here I am assuming by "modern physics" you mean that in the traditional sense where quantum mechanics is important. Cutting edge research in "modern physics" will only be found in physics departments.

If you decide to do engineering and are really interested in these areas, I recommend taking extra courses from the physics department (unless your engineering department is unusually strong with quantum mechanics courses).

best of luck,

jason
 
It depends on exactly what areas of physics/mechanics you are interested in. For instance if you're interested in condensed matter or optics, a Physics Degree will probably suit you most. In terms of Engineering though, the foundations for Mech or Aero Engineering Degrees are generally structural mechanics, aerodynamics, control theory, propulsion and design. They vary between institution as the strength of the course structure relies on the academic staff in the university faculty. I hope this has helped in answering your question.

The Jericho.
 

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