Master of Accountancy (Macc)
Miami University's Master of Accountancy (MAcc) program stands as a pinnacle of exc...
Oxford, Ohio
INTAKE: Jan & Aug
Miami University's B.S. in Biomedical Engineering stands at the forefront of innovation, providing students with a comprehensive and interdisciplinary education that merges engineering principles with biomedical sciences. The integrated curriculum ensures a solid foundation in fundamental subjects such as mathematics, physics, chemistry, and biology, offering a well-rounded perspective. What sets this program apart is its commitment to hands-on learning, with students actively participating in laboratory experiments, design projects, and research activities. The interdisciplinary approach encourages students to explore the interconnectedness between engineering and the life sciences, preparing them to tackle complex challenges in healthcare. Design projects and a capstone experience further enhance the practical application of knowledge, ensuring that graduates are adept at translating theoretical concepts into impactful solutions. Miami University fosters a culture of undergraduate research in biomedical engineering, exposing students to cutting-edge projects that contribute to the advancement of the field. Graduates emerge from this program not only with a strong academic foundation but also with the practical skills, research experience, and innovative mindset needed to thrive in the dynamic and evolving landscape of biomedical engineering.
Curriculum:
Integrated Biomedical Curriculum: The B.S. in Biomedical Engineering program at Miami University offers a comprehensive and integrated curriculum that spans engineering principles and biomedical sciences. Students gain a solid foundation in mathematics, physics, chemistry, and biology, combined with specialized coursework in biomedical engineering.
Hands-On Laboratory Experience: A key feature of the program is its emphasis on hands-on laboratory experience. Students engage in practical experiments, design projects, and research activities in well-equipped laboratories. This experiential learning approach enhances their problem-solving skills and prepares them for real-world applications in biomedical engineering.
Interdisciplinary Approach: Miami University's program adopts an interdisciplinary approach, encouraging students to explore connections between engineering and the life sciences. Courses may integrate biology, chemistry, and medical principles, providing students with a holistic understanding of how engineering principles can be applied to solve complex problems in healthcare.
Design Projects and Capstone Experience: The curriculum includes design projects and a capstone experience, where students apply their knowledge to solve real-world biomedical engineering challenges. This practical component ensures that graduates are not only well-versed in theoretical concepts but also equipped to address the complexities of designing innovative solutions in the biomedical field.
Research Opportunities: Miami University promotes undergraduate research in biomedical engineering. Students have the opportunity to engage in cutting-edge research projects, working alongside faculty members on topics such as medical device development, tissue engineering, and biomechanics. This exposure to research prepares students for advanced studies or careers in the dynamic field of biomedical engineering.
Oxford, Ohio
IELTS: 6.5
USD 38122
Entry Requirements for Undergraduate programs Admission :
Application Fees : Undergraduate: $70
Academic Qualifications:
English Language Proficiency:
Miami University is dedicated to promoting diversity and providing financial support to international students through various scholarship opportunities. These scholarships are designed to recognize academic achievements, leadership qualities, and contributions to the university community.
International Student Scholarship: The International Student Scholarship at Miami University is designed to attract and support outstanding students from around the world. This merit-based scholarship considers academic achievements, leadership skills, and extracurricular involvement. Eligible students are typically evaluated based on their academic performance, standardized test scores, and a holistic review of their application. The scholarship is open to both undergraduate and graduate international students.
Global Miami Plan Scholarship: The Global Miami Plan Scholarship is aimed at international students who excel academically and demonstrate a commitment to global perspectives. This scholarship supports students pursuing majors related to global studies, international relations, or a similar field. Applicants are assessed based on their academic record, personal statement, and alignment with the goals of the Global Miami Plan. This scholarship is available for undergraduate students.
Miami University Foundation Scholarships: The Miami University Foundation offers a range of scholarships that are available to both domestic and international students. These scholarships cover various academic disciplines and are awarded based on merit, financial need, and specific criteria set by donors. Eligibility varies depending on the specific Foundation scholarship. Students are encouraged to review the criteria for each scholarship and apply accordingly.
Departmental Scholarships: Some academic departments at Miami University offer scholarships to international students based on their field of study. These scholarships may be tied to specific majors, programs, or academic achievements within a particular department. Eligibility is determined by the respective department's criteria, which may include academic performance, faculty recommendations, and other department-specific requirements.
Graduate Assistantships: Miami University provides graduate assistantship opportunities for international students pursuing graduate-level studies. These assistantships may involve teaching, research, or administrative responsibilities and often include a stipend and tuition remission. Graduate assistantships are typically awarded based on the applicant's academic qualifications, relevant skills, and the needs of the department.
Application Process: Interested international students are usually automatically considered for some scholarships upon submitting their admission applications. However, certain scholarships may require a separate application or additional materials. It is crucial for applicants to carefully review scholarship details and deadlines.
Renewal Criteria: Many scholarships at Miami University are renewable, subject to maintaining a specified GPA and meeting any other renewal criteria outlined in the scholarship award.
Miami University's B.S. in Biomedical Engineering opens the door to a spectrum of promising career prospects, reflecting the program's commitment to providing a versatile and impactful education. Graduates often embark on careers as biomedical engineers, playing a pivotal role in designing and developing innovative medical technologies. The specialization options, including clinical engineering, biomechanical engineering, and tissue engineering, offer diverse paths to contribute to healthcare advancements. Biomedical engineering graduates can also enter the pharmaceutical industry, work as research and development scientists, or become healthcare consultants, showcasing the program's applicability in various sectors. With a robust foundation in biomedical engineering principles, graduates are well-equipped to address the evolving challenges and opportunities in the dynamic intersection of engineering and healthcare.
Biomedical Engineer: A natural career path for B.S. in Biomedical Engineering graduates is to become biomedical engineers. They design and develop medical devices, equipment, and systems, working in research institutions, hospitals, or medical device companies. Biomedical engineers play a crucial role in advancing healthcare technologies and improving patient outcomes.
Clinical Engineer: Graduates may pursue careers as clinical engineers, working in healthcare settings to manage and maintain medical equipment. They ensure the safety and effectiveness of medical devices, troubleshoot issues, and collaborate with medical professionals to integrate technology into patient care.
Biomechanical Engineer: Specializing in the mechanical aspects of the human body, graduates can become biomechanical engineers. They focus on designing prosthetics, orthopedic implants, and rehabilitation devices. Biomechanical engineers contribute to enhancing the mobility and functionality of individuals with physical impairments.
Tissue Engineer: With a focus on regenerative medicine, graduates may choose to become tissue engineers. They work on developing artificial organs, tissues, and biomaterials to repair or replace damaged body parts. Tissue engineers contribute to advancements in medical treatments and organ transplantation.
Pharmaceutical Engineer: B.S. in Biomedical Engineering graduates can enter the pharmaceutical industry as pharmaceutical engineers. They contribute to the development and optimization of drug manufacturing processes, ensuring the quality and efficiency of pharmaceutical production.
Research and Development Scientist: Some graduates may pursue careers as research and development scientists, working in research institutions, biotechnology companies, or pharmaceutical firms. They contribute to the discovery and development of new medical technologies, drugs, and treatment modalities.
Healthcare Consultant: With a strong background in biomedical engineering principles, graduates can become healthcare consultants. They provide expertise to healthcare organizations, advising on the implementation of technology, regulatory compliance, and process optimization to enhance overall healthcare delivery.