Game Design Majors In Ny

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Materials Science & Engineering (MSE)

ma·ter·i·als sci·ence & en·gi·neer·ing

The investigation of how materials perform and why they fail so that we can create materials with unprecedented functions and properties.

Also Known As: Materials Engineer / Analyst / Researcher, Design Engineer, Quality / Process / Product / Production / Productivity / Manufacturing Engineer, Development Engineer, Textile Creator, Project Manager, Entrepreneur, +10,000 more

WHY MSE AT MICHIGAN?

• 6:1

  student-to-faculty ratio

• No. 5

  US News and World Report

• 43%

  Women - 2017-2018

• 35%

  MSE students pursue complementary Minors or Dual Degrees

• 50%

  of students go to grad school, 50% go to industry

The Van Vlack Lab is dedicated solely to Materials Science & Engineering for students to work in the field performing experiments and applying their course knowledge.

Weekly lunches with MSE alums working in the industry.

What do Materials Science Engineers do?

We are the people who build the materials of the future. Whether it's making plastics more recyclable, making materials that can better absorb energy for solar panels, or designing new prosthetics to be durable yet biocompatible, the materials we create touch everything.

ACADEMIC FOCUS AREAS

• Metallic and Structural Materials

  Make stronger but lighter materials for car frames to improve gas mileage or for rockets to help them launch into space.

  Courses: Thermodynamics of materials, Kinetics and transport in materials, Physical Metallurgy, Composite Materials, Computational Approaches in MSE, Failure analysis

• Polymers and Biomaterials

  Create new non-toxic biomaterials that can change the lives of those battling disease. Whether it is to design new materials for implants to reduce rejection, to make e-skin that can touch and feel like our own skin, or to make prosthetics. Discover the properties of polymers and how they affect recyclability. Evaluate the impact on the environment and create sustainable alternative to plastics.

  Courses: Polymeric Materials, Design and Applications of Biomaterials, Polymer Physics, Advanced Functional Polymers: Molecular Design and Applications

• Electronic, Nano, and Quantum Materials

  Build the next generation of semiconductor and electronic devices. Operate in the nanoscale to make materials with higher conductivity, magnetic response, sensitivity and greater light emission.

  Courses: Physics of Materials, Electronic, Magnetic, and Optical Materials for Modern Device Technology, Materials Physics and Chemistry, Structural and Chemical Characterization of Materials

• Energy Materials

  Build batteries that are more efficient and sustainable. Create solar cells, materials for wind turbines, or materials to best hold nuclear waste.

  Courses: Physics of Materials, Electronic, Magnetic, and Optical Materials for Modern Device Technology, Materials Physics and Chemistry

• Computational Materials

  Use computer modeling to virtually test the efficacy of new materials without having to make them physically and go through extensive trial and error. Simulate even the most complex of materials and alter parameters until they fit the purpose you need.

  Courses: Thermodynamics of materials, Kinetics and transport in materials, Computational Approaches in MSE, Applied Data Science for Engineers

• Areas in which a student, through the use of technical and free electives and in consultation with their advisor, could decide to focus.

Sequential Undergraduate/Graduate Studies Program (SUGS)

Complete a bachelor's and master's degree in only five years with SUGS. Take graduate-level classes during your MSE undergraduate program that can be used towards your graduate degree.

Sample Course List

First-Year

First-Year

• Fall Semester
  • CoE Core Calculus I (Math 115)
  • CoE Core Engineering 100
  • CoE Core Chemistry (125/126 and 130 or 210 and 211)
  • Elective Intellectual Breadth
• Winter Semester
  • CoE Core Calculus II (Math 116)
  • CoE Core Engineering 101
  • CoE Core Physics (140 and 141)
  • Elective Intellectual Breadth

Sophomore Year

Sophomore Year

• Fall Semester
  • CoE Core Calculus III (Math 215)
  • CoE Core Physics (240 and 241)
  • Major Requirement Engineering Materials (MSE 220/250)
  • Major Requirement Science and Technical Elective
• Winter Semester
  • CoE Core Differential Equations (Math 216)
  • Major Requirement Solid Mechanics (ME 211)
  • Major Requirement Physics of Materials (MSE 242)
  • Elective Intellectual Breadth

Junior Year

Junior Year

• Fall Semester
  • Major Requirement Thermodynamics of Materials (MSE 330)
  • Major Requirement Principles of Engineering Materials (MSE 350)
  • Major Requirement Materials Lab I (MSE 360)
  • Major Requirement MSE Elective
• Winter Semester
  • Major Requirement Kinetics & Transitions in Materials Engineering (MSE 335)
  • Major Requirement Materials Lab II (MSE 365)
  • Major Requirement Science and Technical Elective
  • Major Requirement MSE Elective
  • Elective Intellectual Breadth

Senior Year

Senior Year

• Fall Semester
  • Major Requirement Mechanical Behavior of Materials (MSE 420)
  • Major Requirement Materials Processing Design (MSE 489)
  • Major Requirement MSE Elective
  • Major Requirement Science and Technical Elective
  • Elective Unrestrictive Elective
• Winter Semester
  • Major Requirement Materials & Engineering Design (MSE 480)
  • Major Requirement MSE Elective
  • Elective Unrestrictive Elective
  • Elective Unrestrictive Elective
  • Elective Unrestrictive Elective

Practice Your Purpose

Apply the skills you are learning in class to the real world.

Student Design Teams

BLUElab - Better Living Using Engineering Laboratory

Solar Car Team

Multidisciplinary Design Teams

Society of Women Engineers

MASA - Michigan Aeronautical Science Association

Supermileage

MCCT - Michigan Concrete Canoe Team

Michigan Robotic Blacksmithing

Michigan Neuroprosthetics

Professional Development

Michigan Materials Society

Alpha Sigma Mu - Honors Society

Material Advantage

American Foundry Society

Materials Research Society

ASM International

SPE - Inspiring Plastics Professionals

Research

Emmanuelle Marquis: Designing metal alloys resisting heat, oxidation, corrosion, or radiation

READ MORE

Steve Yalisove: Attoseconds to hours: Ultrafast laser interaction with materials

READ MORE

Amit Misra: New Materials for National Nuclear Security

READ MORE

P. Ferdinand P. Poudeu: Cheaper Materials for Solar Cells & Turning Waste Heat into Emissions-Free Energy

READ MORE

Ashwin Shahani: Quasicrystal Growth and Dissolution

READ MORE

John Heron: Metal Mixtures for Post-Silicon Computing Devices

READ MORE

Rachel Goldman: Nanoparticles that Could Spur Better LEDs & Invisibility Cloaks

READ MORE

Jinsang Kim: Producing Heat-Conducting Plastics

READ MORE

Emmanouil Kioupakis: Using Boron to Increase LED Efficiency

READ MORE

Geeta Mehta: Fighting Cancer with Cancer

READ MORE

Max Shtein: 3D Printed Medicine & Implantable Solar Cells Inspired by Electric Eels

READ MORE

Alumni Biographies

Each of these alumni are real people who were once in your shoes, deciding a major. Explore their path and how a Michigan education set their life in motion.

Not sure what major to choose?

Tap into our network of 85k+ engineering alumni. Do you have questions you'd like answered? Our alumni are always eager to talk about engineering.
(Current and admitted UM students only.)

Speak to an Alum

LEARN MORE

Game Design Majors In Ny

Source: https://majors.engin.umich.edu/program/materials-science-engineering/

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