BS in Materials Science and Engineering - Extractive Metallurgy (STEM), University of Nevada, Reno

Reno, Nevada

48 Months

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About this course

This bachelor's degree program in Materials Science and Engineering is designed to teach students about the relationship between a material's atomic structure and its physical properties. Students learn to understand and apply advanced science and engineering principles to materials such as ceramics, glasses, and metals, with the goal of developing new or improved products. The program prepares students for careers in materials processing, manufacturing, design, development of new materials, or materials selection. A strong background in math and science, including physics, chemistry, and calculus, is recommended for success. The program includes hands-on learning starting from day one, with opportunities for research and practical project work leading up to a final senior capstone project and presentation at Innovation Day.

Why this course is highly recommended

This program offers close collaboration with research-active faculty and small class sizes, which facilitate hands-on research experience. The curriculum is designed to prepare students for a wide range of careers in high-demand fields such as aerospace, electronics, and renewable energy. The opportunity to work on senior capstone projects, participate in Innovation Day, and engage in undergraduate research makes it a compelling choice for students interested in practical engineering applications and cutting-edge developments.

Specialisation

Students may choose to focus on specific areas such as extractive metallurgy or nuclear materials as an emphasis within the program. Additionally, students in other engineering disciplines or related fields can pursue a minor in materials science and engineering or extractive metallurgy. There are also options for accelerated B.S./M.S. and combined B.S./MBA programs for outstanding students interested in further qualification.

Course fees

Application fees

20.65L

1st year tuition fees

20.65L

Living cost

Degree requirements

The program requires the completion of 128 credits, which is designed to be finished in four years, including a senior capstone project and research activities.

English language test

DUOLINGO

IELTS

TOEFL

PTE

Career prospects

Graduates find opportunities in manufacturing, pharmaceuticals, electronics, aerospace, and energy sectors. They work on developing materials for high-temperature applications, electronic devices, solar energy, and environmentally friendly materials. The field offers competitive starting salaries, with median salaries around $68,078 as reported in 2022, and a strong demand for skilled professionals across various high-tech industries.

FAQs

How long does it take to complete the program?

The program is designed to be completed in four years, requiring 128 credits.

Can I pursue graduate studies after this degree?

Yes, students have options to pursue M.S. or Ph.D. degrees in materials science and engineering.