国际学生入学条件
In order to be minimally qualified to pursue admission through the Graduate School of Engineering, a candidate must have successfully completed or is in the process of completing an undergraduate bachelors degree from a regionally accredited U.S. college or university, or its equivalent from a foreign college or university. Any offer of admission is contingent upon a candidate's successful completion of an undergraduate bachelors degree from a regionally accredited U.S. college or university, or its equivalent from a foreign college or university.
At the time of application submission, we require unofficial copies of your transcripts from all institutions in which you earned a Bachelor's degree equivalent or higher. Official transcripts and degree certificates will be required if and after admission to the Graduate School of Engineering. To upload unofficial transcripts to your application properly follow the below steps:
Create scanned versions of your transcripts in PDF format (up to 500 KB in size)
When prompted to do so in the application, upload and attach transcripts to the online application
$75 application fee
Two letters of recommendation
Transcripts from all institutions attended
GRE is not required for terms starting during the 2021-2022 or the 2022-2023 academic years
Statement of purpose
Resume
TOEFL, IELTS, or Duolingo for international applicants
TOEFL 85 / IELTS 7
GPA for Degree Progression 3.0
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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:85
- 托福笔试总分:160
- 其他语言考试:NA
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
力学的进步实现了关键的工程创新。使用互补的计算,实验和设计工具,机械领域正在解决从纳米级执行器和人体健康到能源系统和桥梁的挑战。例如,我们的生物力学研究创造了机器人康复辅助设备,并且对细胞生物力学以及生物材料的组装和降解有了新的认识。在最小的长度尺度上,我们正在对纳米力学,接触力学,摩擦学,MEMS和纳米材料在储能系统中的应用产生新的理解。我们的研究目标还包括对压电传感器和执行器的理解,设计和创建,以及动力学系统的稳定性评估和控制。我们的研究和教学共同为学生提供了学习和利用力学的知识,从而使他们能够进行未
Advances in mechanics enable key engineering innovations. Using complementary computational, experimental, and design tools, the mechanics area is addressing challenges from nanoscale actuators and human health to energy systems and bridges. For example, our biomechanics research is creating robotic rehabilitation aids and a new understanding of cellular biomechanics and the assembly and degradation of biomaterials. At the tiniest length scales, we are creating a new understanding of nanomechanics, contact mechanics, tribology, MEMS, and the application of nanomaterials for energy storage systems. Our research goals also include the understanding, design and creation of piezoactive sensors and actuators as well as the stability assessment and control of dynamical systems. Our research and teaching together prepare students to understand and exploit mechanics to enable their future engineering innovations.
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