国际学生入学条件
Freshman applicants are students who have: Completed their secondary education and have earned a certificate of completion which enables them to be admitted to a university in their home country or Never been enrolled as a university student. You will be asked to submit official transcripts from all schools and colleges you have attended, including high school, regardless of your length of attendance or whether you believe the credit is transferable.
TOEFL minimum scores Internet-based: 83, Paper-based: 550. IELTS minimum score of 7 (Academic module). International applicant must earn a GPA of 3.4 (or better) with no grapde lower than C.
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雅思考试总分
7.0
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雅思考试指南
- 雅思总分:7
- 托福网考总分:83
- 托福笔试总分:550
- 其他语言考试:Duolingo English Test - 115
CRICOS代码:
申请截止日期: 请与IDP顾问联系以获取详细信息。
课程简介
生物工程学是一门跨学科专业,其中将传统工程领域的原理和工具(例如机械,材料,电气和化学工程)应用于生物医学和生物学问题。从生理学基础研究到生物技术的进步以及医疗保健的改善,工程在医学中的作用越来越重要。就其本质而言,生物工程是广泛的,需要工程科学以及生理学和其他生物科学的基础。一门专业获得了生物工程学士学位。该专业为学生准备生物医学设备行业的职业以及研究生院的进修奠定了基础。完成生物工程学学士学位的学生可以对传统的工程学主题进行广泛的准备,从而可以选择各种职业途径。该计划涉及生物力学,生物运输,生物仪器,
Bioengineering is an interdisciplinary major in which the principles and tools of traditional engineering fields, such as mechanical, materials, electrical, and chemical engineering, are applied to biomedical and biological problems. Engineering plays an increasingly important role in medicine in projects that range from basic research in physiology to advances in biotechnology and the improvement of health-care delivery. By its very nature, bioengineering is broad and requires a foundation in the engineering sciences as well as in physiology and other biological sciences. One major leads to a BS in Bioengineering. This major prepares students for careers in the biomedical device industry and for further education in graduate school. Students completing the BS in Bioengineering have a broad preparation in traditional topics in engineering, allowing for a variety of career pathways. This program addresses the bioengineering topics of biomechanics, biotransport, bioinstrumentation, bioelectricity, biosystems, and biomaterials, and the complementary fields of systems and integrative physiology. Education in these areas allows application of bioengineering and other scientific principles to benefit human health by advancing methods for effective diagnosis and treatment of disease, e.g., through development of medical devices and technologies.
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