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M.Eng. in Biological Engineering

Moscow, Idaho

 

INTAKE: Jan & Aug

Program Overview

The Master of Engineering (M.Eng.) in Biological Engineering program at the University of Idaho is designed to equip students with the necessary skills and knowledge to integrate engineering principles with biological sciences. This unique interdisciplinary program combines engineering techniques with biological systems, preparing graduates to tackle critical challenges in agriculture, environmental sustainability, biotechnology, and healthcare. The M.Eng. in Biological Engineering program at the University of Idaho empowers students to bridge the gap between engineering and biology, fostering a new generation of professionals equipped to address critical issues in agriculture, environmental sustainability, and more. With a strong emphasis on interdisciplinary learning and practical experiences, this program sets the stage for fulfilling and impactful careers in the field.

Curriculum:

  1. Program Objectives: The primary objective of the M.Eng. in Biological Engineering program is to train engineers with a strong foundation in biological sciences and engineering principles. Students learn to apply this interdisciplinary knowledge to develop innovative solutions for complex biological and environmental issues.

  2. Curriculum and Coursework: The program encompasses a rigorous curriculum that includes core engineering courses, specialized courses in biological engineering, and elective courses allowing students to tailor their studies to specific areas of interest. The coursework covers areas such as bioinstrumentation, bioprocessing, environmental engineering, and agricultural systems.

  3. Interdisciplinary Approach: Emphasizing an interdisciplinary approach, the program encourages collaboration between engineering and biological sciences. Students gain a holistic understanding of biological systems and processes, enabling them to design and implement sustainable engineering solutions.

  4. Research Opportunities: The program offers ample research opportunities where students can engage in cutting-edge projects under the guidance of experienced faculty. Research areas often involve bioenergy, biomaterials, bioprocessing, water resources, and more, allowing students to contribute to advancements in the field.

  5. Laboratory Facilities: The University of Idaho provides state-of-the-art laboratory facilities equipped with advanced technology. Students have access to these facilities to conduct experiments, analyze data, and carry out research projects integral to the program.

  6. Industry-Relevant Skills: The curriculum is designed to instill in students the skills needed to excel in a variety of professional settings. These include problem-solving abilities, project management skills, data analysis, and effective communication, all of which are crucial for success in the industry.

  7. Capstone Project: As part of the program, students typically undertake a capstone project where they integrate their knowledge and skills to address a real-world engineering problem. This hands-on experience enhances their ability to apply theoretical concepts in practical situations.

  8. Faculty Expertise: The faculty members overseeing this program are highly experienced and possess expertise in both engineering and biological sciences. Their guidance and mentorship play a vital role in the academic and professional development of students.

  9. Industry Collaboration: The University of Idaho collaborates with various industries and organizations, providing students with opportunities for internships, co-op programs, and industry projects. These partnerships enhance students' exposure to real-world challenges and establish valuable industry connections.

  10. Graduate Outcomes: Upon completion of the program, graduates are well-prepared for diverse career paths, including roles in biotechnology companies, agricultural and environmental engineering firms, research institutions, governmental agencies, and academic institutions.

Pollster Education

Location

Moscow, Idaho

Pollster Education

Score

IELTS: 6.5

Pollster Education

Tuition Fee

USD 29448

Entry Requirements for Postgraduate Programs

Application Fees : US$ 70

  1. Academic Qualifications:

    • A completed bachelor's degree from a recognized institution.
    • A minimum undergraduate grade point average (GPA) of 3.0 on a 4.0 scale or its equivalent. Typically, this translates to a minimum of 60% or a "B" grade.
       

  2. English Language Proficiency:

    • IELTS (International English Language Testing System): A minimum overall score of 6.5 with no individual band score below 6.0.
    • TOEFL iBT (Test of English as a Foreign Language - Internet-Based Test): A minimum overall score of 79.
    • DET (Duolingo English Test): A minimum score of 110.                    

The University of Idaho (UI) offers a variety of scholarships and financial aid options to help international students pursue their education in the United States. These scholarships are designed to recognize academic achievement, talent, and diversity. 

  1. International Excellence Scholarship: This merit-based scholarship is open to undergraduate international students who demonstrate exceptional academic performance. The scholarship amount varies and is renewable for up to four years. Eligibility is determined based on academic records and standardized test scores.

  2. International Cultural Diversity Scholarship: UI values diversity and offers this scholarship to incoming undergraduate international students who enhance the cultural diversity of the campus. It provides financial support and is renewable for up to four years.

  3. International Student Grants: These need-based grants are available to international undergraduate and graduate students who demonstrate financial need. Eligibility is determined based on the Free Application for Federal Student Aid (FAFSA) or other required documentation.

  4. Graduate Assistantships: Graduate students pursuing master's or doctoral degrees may be eligible for graduate assistantships. These positions offer a stipend, tuition remission, and valuable professional experience. Assistantships are available in various departments and research projects.

  5. College and Departmental Scholarships: Many academic colleges and departments within UI offer scholarships specific to their programs. These scholarships may be based on academic performance, major, or other criteria. Students are encouraged to check with their respective college or department for available opportunities.

  6. External Scholarships: UI also provides information and guidance to international students seeking external scholarships, which are offered by organizations, foundations, and government agencies outside the university. These scholarships may have specific eligibility requirements and application deadlines.

  7. Fulbright Program: The Fulbright Program offers opportunities for international students to study, conduct research, or teach at the University of Idaho. This prestigious program provides funding for graduate-level education and research projects.

  8. Athletic Scholarships: International student-athletes with exceptional sports talents may be eligible for athletic scholarships. These scholarships are typically awarded through the university's athletics department.

It's important to note that scholarship eligibility criteria, application processes, and deadlines can vary.

The Master of Engineering (M.Eng.) in Biological Engineering program at the University of Idaho prepares students for dynamic careers at the intersection of engineering, biology, and agriculture. Graduates of this program possess a unique skill set that allows them to address complex challenges in industries such as biotechnology, agriculture, food production, and environmental engineering. 

  1. Biotechnology Industry: Graduates can pursue roles in the biotechnology sector, working for companies that focus on genetic engineering, pharmaceuticals, medical devices, and bioinformatics. Potential positions include bioprocess engineer, research scientist, or product development specialist.

  2. Agricultural Engineering: With a strong foundation in biological engineering, students can enter the agricultural industry, developing innovative solutions to enhance crop production, livestock management, and sustainable farming practices. Job opportunities include agricultural engineer, precision agriculture specialist, or agricultural research scientist.

  3. Environmental Engineering: Graduates can contribute to environmental conservation and sustainability efforts by designing and implementing engineering solutions to address pollution, waste management, and ecosystem restoration. Career options include environmental engineer, water resources specialist, or ecological consultant.

  4. Food and Beverage Industry: The program equips students with skills in food processing, safety, and quality control. Graduates can find opportunities in food and beverage companies, ensuring the production of safe and nutritious products as food technologists, quality assurance managers, or food safety inspectors.

  5. Biomedical Engineering: For those interested in healthcare and medical technology, careers in biomedical engineering are possible. Graduates can work on the design and development of medical devices, prosthetics, and healthcare systems, holding positions such as biomedical engineer or clinical engineer.

  6. Research and Development: Many graduates choose to pursue careers in research and development, either in academia or in private research institutions. They can contribute to cutting-edge projects related to bioengineering, bioprocessing, or genetic research.

  7. Government Agencies: Opportunities exist in government agencies such as the U.S. Department of Agriculture (USDA), Environmental Protection Agency (EPA), and the Food and Drug Administration (FDA). Graduates may work on regulatory compliance, research, and policy development.

  8. Consulting Firms: Graduates can join engineering consulting firms that specialize in biological and environmental projects. They may work on a variety of projects, including environmental impact assessments, agricultural feasibility studies, and bioprocess optimization.

  9. Entrepreneurship: Some graduates choose to become entrepreneurs by starting their businesses in the biotechnology, agriculture, or environmental sectors. This path allows them to bring innovative solutions to market and potentially make significant contributions to their respective industries.

  10. Advanced Education: Graduates interested in pursuing academic or research-oriented careers can continue their education by enrolling in Ph.D. programs in biological engineering, agricultural engineering, or related fields.

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