约翰霍普金斯大学机械工程硕士专业 振兴中国制造业!

　　近些年，国内的制造业呈现了高度自动化，机械工程师则是提高生产率，促进人类社会发展的重要支撑，从而对其人才的需求量与日俱增，为了顺应时代的需求，美国约翰霍普金斯大学就开设了机械工程硕士专业，下面，就随小编来看看吧，希望对大家有所帮助：

　　Mechanical Engineering, Master of Mechanical Engineering

　　机械工程课程是为想要在复杂和快速发展的技术和组织环境中提高效率的工作工程师设计的。该课程拓宽和加强了学生对传统基础知识的理解，但也向他们介绍当代应用和技术。

　　课程设置：

　　Core Courses

　　EN.535.641 Mathematical Methods For Engineers 1

　　Recommended 2

　　EN.535.609 Topics in Data Analysis

　　EN.535.610 Computational Methods of Analysis

　　EN.535.742 Applied Machine Learning for Mechanical Engineers

　　Focus Areas

　　Select one of the following Focus Areas:

　　Biomechanical Engineering

　　Fluid Mechanics and Thermal Science

　　Advanced Manufacturing

　　Robotics, Dynamics, and Controls

　　Solids/Mechanics of Materials

　　BIOMECHANICAL ENGINEERING

　　Select five of the following of which two must be from Group 1:

　　Group 1

　　EN.535.661 Biofluid Mechanics

　　EN.535.663 Biosolid Mechanics

　　EN.535.664 Fundamental Principles for Bio-microfluidic Systems

　　EN.535.750 Biomechanics of the cell: From nano- and micro-mechanics to cell organization and function

　　Group 2 

　　EN.585.631 Introduction to Biomechanics

　　EN.585.708 Biomaterials

　　EN.585.710 Biochemical Sensors

　　EN.585.720 Orthopedic Biomechanics

　　EN.525.786 Human Robotics Interaction

　　This list will be updated continuously as more course are developed.

　　FLUID MECHANICS AND THERMAL SCIENCE

　　Select five of the following of which two much be from Group 1:

　　Group 1

　　EN.535.621 Intermediate Fluid Dynamics

　　EN.535.633 Intermediate Heat Transfer

　　EN.535.634 Applied Heat Transfer

　　EN.535.735 Computational Fluid Dynamics

　　Group 2

　　EN.535.614 Fundamentals Acoustics

　　EN.535.625 Turbulence

　　EN.535.652 Thermal Systems Design and Analysis

　　EN.535.661 Biofluid Mechanics

　　EN.535.662 Energy and Environment

　　EN.535.664 Fundamental Principles for Bio-microfluidic Systems

　　EN.535.670 Advanced Aerodynamics

　　EN.535.737 Multiscale Modeling and Simulation of Mechanical Systems

　　ADVANCED MANUFACTURING

　　Select five of the following of which two must be from Group 1:

　　Group 1

　　EN.535.628 Computer-Integrated Design and Manufacturing

　　EN.535.659 Manufacturing Systems Analysis

　　EN.535.660 Precision Mechanical Design

　　EN.535.673 Mechanized Assembly: Hardware and Algorithms

　　Group 2

　　EN.535.623 Intermediate Vibrations

　　EN.535.627 Computer-Aided Design

　　EN.535.633 Intermediate Heat Transfer

　　EN.535.642 Control Systems for Mechanical Engineering Applications

　　EN.535.672 Advanced Manufacturing Systems

　　EN.535.684 Modern Polymeric Materials

　　EN.515.658 Design for Additive Manufacturing

　　ROBOTICS, DYNAMICS, AND CONTROLS

　　Select five of the following of which two must be from Group 1:

　　Group 1

　　EN.535.622 Robot Motion Planning

　　EN.535.630 Kinematics & Dynamics of Robots

　　EN.535.642 Control Systems for Mechanical Engineering Applications

　　EN.535.724 Dynamics of Robots and Spacecraft

　　Group 2

　　EN.535.612 Intermediate Dynamics

　　EN.535.623 Intermediate Vibrations

　　EN.535.627 Computer-Aided Design

　　EN.535.628 Computer-Integrated Design and Manufacturing

　　EN.535.635 Introduction to Mechatronics

　　EN.535.645 Digital Control and Systems Applications

　　EN.535.659 Manufacturing Systems Analysis

　　EN.535.660 Precision Mechanical Design

　　EN.535.673 Mechanized Assembly: Hardware and Algorithms

　　EN.530.691 Haptic Interface Design for Human-Robot Interaction

　　EN.535.726 Robot Control

　　EN.535.741 Optimal Control and Reinforcement Learning

　　EN.535.782 Haptic Applications

　　SOLIDS/MECHANICS OF MATERIALS

　　Select five of the following of which two must be from Group 1:

　　Group 1

　　EN.535.606 Advanced Strength Of Materials

　　EN.535.623 Intermediate Vibrations

　　EN.535.632 Applied Finite Elements

　　EN.535.731 Engineering Materials: Properties and Selection

　　Group 2

　　EN.535.612 Intermediate Dynamics

　　EN.535.627 Computer-Aided Design

　　EN.535.643 Plasticity

　　EN.535.660 Precision Mechanical Design

　　EN.535.663 Biosolid Mechanics

　　EN.535.684 Modern Polymeric Materials

　　EN.535.711 Symmetries of Crystalline Solids

　　EN.535.732 Fatigue and Fracture of Materials

　　EN.535.748 Stress Waves, Impacts and Shockwaves

　　EN.515.658 Design for Additive Manufacturing

　　入学要求：

　　申请人之前的教育必须包括机械工程或相关技术学科的学士学位。申请人的学历应包括以下先决条件:

　　1. 三个学期的大学微积分(微积分I、II、III)

　　2. 两个学期的大学物理(物理一、物理二)

　　3.一门编程语言的课程或实际知识(如Python、Matlab或c++)

　　申请人之前的教育不包括上述所列的先决条件，仍然可以在临时状态下注册，然后一旦他们完成了缺失的先决条件，完全录取状态。缺少先决条件可能与约翰霍普金斯工程(所有先决条件超出微积分可用)或在另一个地区认可的机构完成。

　　注册学生通常在本科学习中平均成绩至少为3.3(满分为4.0)(B+或以上)，尽管这不是入学的要求，也不是保证。必须提交所有大学学习的成绩单。在审查申请时，申请人的学术和专业背景将被全面考虑，并根据具体情况做出决定。强烈建议申请者提交最多两页的简历，列出他们的相关专业背景。

　　综上所述，以上讲的就是关于约翰霍普金斯大学机械工程硕士的相关问题介绍，希望能给各位赴美留学的学子们指点迷津。近年来，赴美留学一直是广大学生最热门的话题，同时，很多学生对于签证的办理、院校的选择、就业的前景、学习的费用等诸多问题困扰不断，别担心，IDP留学专家可以为你排忧解难，同时，更多关于赴美留学的相关资讯在等着你，绝对让你“浏览”忘返。在此，衷心祝愿各位学子们能够顺利奔赴自己心目中理想的学校并且学业有成!