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The NERS undergraduate program lays a firm foundation in both mathematics and basic sciences. As a result, students spend most of the first four semesters developing a broad background in physics, math, chemistry, computing and engineering principles before delving into nuclear engineering courses in their junior and senior years. They develop special expertise in atomic and nuclear physics, nuclear processes and the interactions between matter and radiation.

Students learn to apply this knowledge to identify and solve engineering problems and conduct engineering experiments. This includes developing systems, processes and components for nuclear or radiological applications, with a close eye on radiation safety and environmental protection.

In addition to nuclear engineering and radiological concepts, students use modern tools and techniques and work in multidisciplinary teams that reflect real-world engineering projects. They also engage with the environmental, social, political and ethical aspects of the field.

To provide a superior education for engineers and scientists in nuclear engineering and radiological sciences and to develop future leaders in industry, government and education.

Goals

The program provides students with:

skills and tools necessary for industrial, medical, governmental and environmental applications of nuclear processes and radiation.
insights and skills that will prepare them to be leaders in research and the practice of nuclear engineering and radiological sciences within 5 to 10 years of graduation.

Objectives

Within 5-10 years after graduating our students will be able to:

Use their understanding of nuclear engineering and radiological sciences to perform analyses and measurements related to radiation and radiation interactions with matter, nuclear power systems, and health physics design and analyses, in industry, government agencies, or academic environments.
Adapt to the rapidly changing scientific and technological landscape, recognize the implications of their work, drive the development of future technologies, and engage in life-long learning and the continual improvement of their skills and knowledge.
Communicate effectively with their colleagues and students; and positively influence policy makers and the general public.
Contribute substantively as leaders, in science, technology, the environment, and society.

Outcomes

Graduates of the program will have:

an ability to apply mathematics, science and engineering, including atomic and nuclear physics, to the study of radiation interactions with matter and nuclear processes;
an ability to use the techniques, skills and modern engineering tools necessary for engineering practice;
an ability to identify, formulate and solve engineering problems and develop practical solutions;
an ability to design a system, component, or process applicable to nuclear engineering and radiological science, to meet desired needs with realistic constraints such as economic, environmental, social, political, ethical, health and safety, manufacturability and sustainability;
an ability to design and conduct engineering experiments, as well as to analyze and interpret data, including the characteristic attributes of nuclear processes and radiation;
an ability to function effectively on diverse multidisciplinary teams and provide leadership to teams and organizations;
an ability to communicate effectively in oral, graphic and written communication;
the broad education necessary to understand the impact of engineering solutions and biological effects of radiation in a global, economic, environmental and societal context;
an understanding or professional and ethical responsibility;

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College of Engineering

ตัวเลือกคอร์ส

เต็มเวลา (128 ชั่วโมงเรียน)

ค่าเรียน
US$25,586.00 (฿ 797,257) ต่อปี
Lower Division (0-54 credits towards program): USD $25,586; Upper Division (55+ credits towards program): USD $28,732
เริ่มเรียน

ประมาณ พฤษภาคม, สิงหาคม 2021

สถานที่

College of Engineering

1221 Beal Avenue,

ANN ARBOR,

Michigan,

48109, United States

ข้อกำหนดในการสมัคร

สำหรับนักเรียนสหรัฐอเมริกา

Other English Language Requirements: MELAB (plus speaking): 85 range with section scores 80+ and 3+ in speaking; TOEFL (PBT): 600 range with section scores 57+; ECPE: Certificate with all sections at least a C; CAE or CPE: 185 with no less than 180+ in all sections (CEFR C1);PTE Academic: 68 with all sections equally strong.

สำหรับนักเรียนนานาชาติ

High school transcript

Generally Accepted Minimum Scores

English proficiency scores are one component in the overall review of an application. Generally accepted minimum scores for each of the accepted tests are:

MELAB: 80-85 range with section scores of at least 80
TOEFL (PBT): 570-600 range with section scores of at least 57
TOEFL (iBT): 88-100 range with section scores of at least 23 in listening and reading, and at least 21 in speaking and writing
IELTS: 6.5-7.0 range with section scores of at least 6.5

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