Inquiry about nuclear engineering

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Nuclear engineering students typically begin their studies with foundational courses in math, physics, chemistry, and engineering principles, emphasizing the importance of partial differential equations. By the second year, students should have a grasp of modern physics, including quantum mechanics and electromagnetism, alongside introductory nuclear physics and particle physics. Essential coursework also includes mechanics of materials, materials science, thermodynamics, heat transfer, fluid flow, and electrical engineering, which is crucial for understanding instrumentation and power generation.As students progress, upper-level courses focus on nuclear reactor theory, neutron diffusion, nuclear plant design, and radiation detection. For those looking to get ahead, self-study is encouraged, particularly in physics and computational physics, which is increasingly important for simulations in engineering. Learning programming and numerical analysis is also recommended to enhance both theoretical understanding and practical application in the field.
HemaGh
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I am majoring in renewable energy and planning on specializing in nuclear engineering. I want to know what course line or what courses does a nuclear engineer have to know ?
 
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HemaGh said:
I am majoring in renewable energy and planning on specializing in nuclear engineering. I want to know what course line or what courses does a nuclear engineer have to know ?
Usually nuclear engineering students take introductory math, physics, chemistry and engineering courses. Nuclear engineering uses math intensively, and ultimately one must be comfortable with partial differential equations.

By the second year, one should have accomplished an introductory level in modern physics with some quantum mechanics and relativity, and EM theory, very much equivalent to a second year physics major. Many departments offer an introductory course on modern physics including nuclear physics with some introductory particle physics. Basically, one learns about forms of radiation and the radiation interaction with matter.

In addition to the basic physics, nuclear engineering students need course work in mechanics of materials, materials science/engineering, thermodynamics, heat transfer, fluid flow, and electrical engineering (circuits and electromechanics). The electrical engineering is necessary to understand instrumentation and power generation.

Upper level courses include nuclear reactor theory, including neutron diffusion and transport, nuclear plant design, radiation detection and measurement, and so on.
 
Thank you for your reply. I am on my second year and it's going well, but I want to get a little bit ahead through self study. would you advice me to start with a specific course ? or should I go with the study plan of the university ?
 
HemaGh said:
Thank you for your reply. I am on my second year and it's going well, but I want to get a little bit ahead through self study. would you advice me to start with a specific course ? or should I go with the study plan of the university ?
I would recommend self-study and if possible, an actual course in physics. What courses did one take during freshman year and this year with respect to math, physics and engineering.

Computational physics is become more and more part of advanced engineering. Many corporations and laboratories do more complex simulations these days with the objective of learning from simulations to guide or supplement experiments.

Learning a programming language and how to program effectively/efficiently, as well as numerical analysis, are critical these days.

Ideally one learns both theory and application in physics and engineering (and a good foundation in mathematics is fundamental to that).
 

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