University of Minnesota College of Science and Engineering Student Viewbook 2016-17

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DRIVE DRIVEN BY CURIOSITY. DRIVEN BY INSPIRED BY CURIOSITY. OPPORTUNITY. Huntington Point

INSPIRED BY OPPORTUNITY.

CURI OUS

CURI cse.umn.edu cse.umn.edu

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“I hope to contribute to NASA’s pursuit in sending a person to Mars.”

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“I hope to find a way to make technology accessible to everyone around the world.”

Aerospace Engineering and >> Mechanics

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“I want to solve environmental issues to preserve the Earth for future generations.”

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“I hope to develop more efficient solar cells and higher capacity rechargeable batteries.”

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“I want to integrate more technology into schools so learning can be fun.”

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“I want to use chemistry to thwart the ever-increasing threat of antibiotic resistance.”

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“I want to help advance our understanding of the Universe.”

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“I want to design bridges that are safe, stable, and secure.”

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king to solve grand challenges >> <<

“I want to develop diagnostic healthcare tools for lowresource communities.”

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“I want to teach others about the complexities behind not only the brain, but the underlying mathematics of what makes us human.”

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“I want to learn, to discover, and to push the boundaries of human knowledge through physics.”

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“I want to help eliminate the need for fossil fuels.”

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Are you curious at heart? Solving big problems starts with asking big questions. If you want to be among those scientists and engineers whose curiosity will fuel solutions to the world’s challenges in energy, the environment, human health, and more, you’re in the right place. At the College of Science and Engineering (CSE), you will be part of a distinctive undergraduate experience where you can turn your curiosity into a career you’ll love. Home to top-ranked science and engineering programs, CSE is the only college at a major research university in the nation that blends together engineering, mathematics, and the physical and computer sciences.

Aerospace Engineering and Mechanics

Do you want to learn from world-class faculty?

Our faculty members are among the top in the world. We have about 435 tenured and tenure-track faculty—including eight Regents Professors, 13 National Academy of Engineering members, and four National Academy of Sciences members. They are exploring space, solving problems in human health, uncovering mysteries at the nanoscale, expanding energy sources, increasing the power of information technology, and doing it in state-of-the-art facilities. More than 90 percent of our undergraduate courses are taught by long-term faculty or staff, and they also serve as mentors and advisors. Under their guidance, you will acquire scientific and technical skills and the ability to think critically, communicate effectively, and learn independently.

By the Numbers

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144

$141.9M

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number of patents generated by CSE faculty and students in the past five years

amount of research funding received in FY2015

number of start-up companies generated by CSE faculty and students in the last five years

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How will I know what major to choose? You obviously have an aptitude for science and math if you’re considering CSE. But you don’t need to worry yet about what major to choose. Think more “big picture” about what interests you. Would you like to save the environment through renewable resources, alternative energy, or green industries? Several majors address those issues—environmental engineering, chemical engineering, chemistry, bioproducts and biosystems engineering, and more. Or are you interested in solving medical problems by developing medical devices or engineering artificial tissue? Biomedical engineering, electrical engineering, materials science, or mechanical engineering may be the major for you. During your freshman year, you’ll take core courses in math, physics, chemistry, composition, and liberal arts. You will also take CSE 1001: First-Year Experience, a one-credit course where you will explore majors, careers, and all of the resources that CSE provides to assist you in your academic success and journey. Our programs, advisors, and counselors will help you focus on what drives your curiosity so you can select a major that meets your career and personal interests.

By the Numbers

99.5% first-year students who graduated in the top 25% of their high school class

96.4% CSE freshmen retention rate

32.7% incoming 2015 CSE freshmen who were female

Are you ready for a challenge? CSE students are curiously smart, and they ask big questions. Our academic programs, which consistently appear among the top 20 in national rankings by U.S. News & World Report, The Princeton Review, and the National Research Council, will challenge you. When you choose one of our 18 majors, you’ll receive fundamental education in the physical sciences, mathematics, and computer science, followed by specialized courses in your chosen field. Most programs require 120 to 128 credits. To graduate within four years, you’ll need to average 15 to 16 credits each semester. You will also complete campus-wide general education requirements, choosing from subjects such as art, music, history, and more. It’s also recommended you take at least one computer science course to help with problem-solving skills, independent of your major. To see sample four-year course plans for each major, visit cse.umn.edu/fouryearplans.

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DRIVE WHAT YOU’LL STUDY • Fluid mechanics and

aerodynamics • Propulsion • Structures and materials • Flight mechanics and control • Orbital mechanics • Instrumentation and experiments • Aerosystem design

Aerospace Engineering and Mechanics CAREERS • • • • • •

Spacecraft design engineer Wind tunnel engineer Flight test engineer Aircraft design engineer Project engineer Research and development engineer • Test engineer • Stress analyst • Sales engineer • Professor

As you would expect, aerospace engineering and mechanics graduates design aircraft and spacecraft. However, they also are involved in designing many other high-tech systems. They develop new technologies in areas such as the biomedical and computer industries. They make it possible to explore space and oceans to carry people and products around the world, and to communicate globally. Aerospace engineering and mechanics is always at the forefront of modern technology and one of the most challenging career paths in the world.

Major: Aerospace Engineering and Mechanics Hometown: Lake Villa, Ill.

Student profile: Jason Adlam “I chose the U because of its academics, the Big 10 atmosphere, and its large downtown metropolitan areas. The aerospace program is ranked highly and that was important to me.”

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Watch a video to hear more from Jason. z.umn.edu/jason


EN Astrophysics

Using data from powerful new technologies, astrophysicists make discoveries that raise new questions about our Universe. They study the physics of the Universe. They interpret observational data through mathematical and physical laws. Astrophysicists apply disciplines of physics, including mechanics, electromagnetism, statistical mechanics, thermodynamics, quantum mechanics, relativity, nuclear and particle physics, and atomic and molecular physics.

CAREERS • University researcher • Research equipment

designer • Planetarium technician • Computational

astrophysicist • Solar astronomer • Cosmologist • Planetary scientist • Telescope engineer • Support astronomer

WHAT YOU’LL STUDY You will complete core courses in math, physics, and astrophysics and then choose an area of emphasis: professional astronomy, computational astrophysics, secondary education, data-analysis specialist/laboratory scientists, or military reserve officer. Many students major in both astrophysics and physics, which includes a supervised observation or theoretical research project in the senior year. You will also have access to excellent facilities including: 30-inch reflector near Minneapolis; 60-inch reflector on Mt. Lemmon near Tucson, Ariz.; large facilities such as Arecibo Radio Observatory, Kitt Peak National Observatory, Mauna Kea Observatory, and the National Radio Astronomy Observatory.

Watch a video to hear more from Erik. z.umn.edu/erik

Major: Astrophysics, Computer Science Hometown: Roseville, Minn.

Student profile: Erik Husby “The University has a top-notch science program with plenty of opportunities for both course study and research in a wide range of academic fields. I wanted a strong astrophysics program, which is exactly what the U offers.”

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CAREERS • Biomedical engineer • Research and development

engineer • Quality control/assurance

engineer • Medical device design • • • • • • •

engineer Manufacturing engineer Prosthesis designer Medical diagnostics Biomaterials engineer Clinical engineer Rehabilitation engineer Physiological systems engineer

Biomedical Engineering Biomedical engineers help to solve medical and scientific health problems. They are involved in medical device fabrication and testing, prosthesis fabrication, ergonomics, monitoring physiological function, developing home health care technology, biomedical informatics, and functional imaging and tomography. They also conduct research in biomaterials and biocompatibility, artificial tissue and organ fabrication, cell- and biomolecule-based sensors and therapeutics, gene therapy, and biomedical microsystems.

Aerospace Engineering and Mechanics

Many of the world’s largest medical device manufacturers are based in the Twin Cities, providing internships, jobs, mentors, and project advisors.

WHAT YOU’LL STUDY

Major: Biomedical Engineering, Physics Hometown: Shakopee, Minn.

This field is constantly changing with advances in biology, medicine, and technology. The biomedical engineering degree program gives you a broad, deep foundation so you can adapt to new opportunities and applications throughout your career. The curriculum features: • freshmen seminars led by professors and industry professionals, • biology and physiology courses as well as math, physics, and

chemistry, • core courses in biomedical engineering with integrated labs, • custom elective tracks, allowing students to tailor studies to their

career interests, and • a senior design sequence advised by a practicing biomedical

engineer.

Watch a video to hear more from Vandon. z.umn.edu/vandon

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Student profile: Vandon Duong “Being involved with research has certainly been one of my best experiences in CSE. I’ve learned a great deal about biomolecular engineering and was also published as a co-author last summer.”

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CUR Bioproducts and Biosystems Engineering

Bioproducts and biosystems engineering prepares you to create sustainable solutions that address societal needs while protecting our environment. You will focus on biological, renewable, natural resources, and systems to address our growing global need for clean energy, water and air, green materials, and safe and secure food. Closely aligned with employer demand, this degree has excellent career opportunities in industry, government agencies, consulting, and engineering firms.

CAREERS • • • • • • •

Process engineer Environmental engineer Food engineer Project engineer Ecological engineer Bioprocessing engineer Product development engineer • Research engineer • Water resources engineer • Consulting engineer

Major: Bioproducts and Biosystems Engineering Hometown: Bloomington, Minn.

WHAT YOU’LL STUDY As an accredited engineering program, bioproducts and biosystems engineering provides a strong science and engineering background with a special emphasis on biological systems, bioprocessing, bio-based products, and food. The curriculum integrates engineering, biology, and chemistry in a variety of applications that will prepare you to design, develop, and implement sustainable solutions that promote the use of renewable resources and enhance our ecosystems. You may specialize in one of three areas: • Bioproducts engineering—designing and implementing sustainable products and processes including renewable energy, renewable materials, and chemicals • Environmental and ecological engineering—designing and implementing sustainable solutions to address human impact on our natural environment • Food engineering—creating processes and systems to address the world’s growing need for food security, food safety and healthy lives.

Student profile: Elizabeth Alonzi Watch a video to hear more from Elizabeth. z.umn.edu/elizabeth

“CSE was a great fit for me because of its wide variety of majors, convenient location in a city filled with professional and extracurricular opportunities, and the generous scholarships it offered.”

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CAREERS • Biotechnology engineer • Polymer manufacturing

engineer

• Pharmaceutical

manufacturing engineer

• Research and development

engineer

• Quality control engineer • Regulatory affairs engineer • Manufacturing production

engineer

• Food processing engineer • Petrochemicals engineer • Consultant

Chemical Engineering Aerospace Engineering and Chemical engineers are undertaking some of the planet’s greatest Mechanics challenges in energy resources, pollution control, and new medical therapies. They work on a wide variety of projects to chemically and physically transform matter. As a chemical engineer, you will solve technical problems, create and improve products, and make lives better. With a degree in chemical engineering, you will be prepared to work in a wide range of industries or may go on for graduate study in medical sciences, materials science, or patent and environmental law.

WHAT YOU’LL STUDY The curriculum features: • coursework based on applied chemistry, biology, physics, materials science, mathematics, and economics; • applied mathematics; material and energy balance; properties and physics of gases, liquids, and solids; fluid mechanics; heat and mass transfer; thermodynamics; chemical and biological research; kinetics and reactor design; and integrating subjects of process design, control, and economic optimization; and • a broad-based program emphasizing both basic and engineering science.

Watch a video to hear more from Blake. z.umn.edu/blake16

Major: Chemical Engineering, Chemistry Hometown: Green Bay, Wis.

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Students may add a complementary second major in chemistry or materials science.

Student profile: Blake Schweiner “I knew as soon as I visited the U that this was my choice. There was no way I could say no after hearing about all of the amazing opportunities offered.”

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Chemistry

Chemists interact with nature at a fundamental, molecular level—its composition, properties, and transformation into new substances. They are interested in molecular structure, the properties of materials, and in reactions that convert one material into another. Chemistry significantly impacts many other fields including medicine, materials science, genetics, biology, pharmacy, food science, and environmental science.

CAREERS • • • • • • • • • •

Research (basic and applied) Product development Chemical technology Public health and safety Environmental protection Hazardous waste management Quality assurance and control Forensics Toxicology Chemical education

Major: Chemistry, Biochemistry Hometown: Carol Stream, Ill.

WHAT YOU’LL STUDY The curriculum encompasses the major subfields of chemistry— the theories, techniques, and tools. It includes chemistry, physics, mathematics, and the liberal arts. You may select an emphasis area: • Bioscience/bioproducts, • Chemical physics, • Chemistry education, • Environmental chemistry, or • Materials chemistry There are also dual tracks in: • Chemistry and biochemistry, • Chemistry and biology, and • Chemistry and food science.

Student profile: Mark Mills Watch a video to hear more from Mark. z.umn.edu/mark16

“I chose the University of Minnesota for its highly ranked chemical engineering program. Although, once I got here, I realized the chemistry major was a closer fit with my interests and goals.”

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INSP CAREERS

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Municipal planner Building engineer Water projects engineer Pollution control engineer Road and bridge designer Highway engineer Urban transport engineer

Civil Engineering Aerospace Engineering and Civil engineers work forMechanics society. They analyze, design, and supervise the construction of roads, buildings, water supply systems, airports, tunnels, dams, bridges, and wastewater treatment systems. They must consider many factors in the design process including regulations and policy issues, sustainability, fabrication costs and constructability, expected lifetime of a project, and risk assessment of natural events and potential hazards. Civil engineering is the broadest area of engineering and has the largest tangible impact on the quality of life, human health, and safety.

WHAT YOU’LL STUDY The broad-based curriculum prepares you for a career by applying mathematics, chemistry, and physics to solve specific, real-world problems. You will learn about the principal areas of civil engineering and can choose an emphasis area: • Environmental engineering • Geomechanics • Structural engineering • Transportation engineering • Water resources engineering • Municipal engineering The curriculum also develops communication, teamwork, and leadership skills. Beyond the classroom, you can gain valuable hands-on experience with research, internships, co-ops, study abroad opportunities, and team competitions.

Student profile: Diego De Bedout “The University of Minnesota is an affordable yet wellregarded research university with tons of opportunities for research as an undergraduate, which was a big draw for me.”

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Watch a video to hear more from Diego. z.umn.edu/diego

Major: Civil Engineering Hometown: San José, Costa Rica


PIRED Computer Engineering Computer engineers design, build, test and install high-tech computing devices for everything from the most powerful supercomputers to the tiniest, most energy-efficient microprocessors used in virtually all components of modern technology. They research, design, and develop hardware and software used in systems that deliver power, performance, safety, security, and reliability but also leverage these systems to create and enhance meaningful devices and applications used in our everyday world.

WHAT YOU’LL STUDY The program provides a strong foundation in both electrical engineering and computer science. The curriculum, which is built on mathematics and sciences, combines closely related courses from both disciplines to help you understand, design, and apply knowledge in fields underpinning technology, instrumentation, and communications. The program emphasizes creative thinking, problem solving, communication, and teamwork skills enabling you to become prepared for a wide range of roles within the computing industries. Emphasis areas include: • Computer architecture and parallel programming • Microprocessor and microcontroller systems • Computer-aided circuit design • Security and computing networks • Software engineering • Robotics, artificial intelligence and machine learning • Data analysis, processing and bioinformatics

CAREERS • • • • •

Circuit designer Computer architect specialist Computer network engineer Electronic systems designer Machine learning and algorithms engineer • Logic design test and verification engineer • System or software development engineer • Computer security test and operations engineer

Major: Computer Engineering Hometown: Arlington, Va.

Student profile: Zoe Dormuth “I wanted a large engineering program with all the resources I would need to be successful. I couldn’t be happier with my choice.”

Watch a video to hear more from Zoe. z.umn.edu/zoe16

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OPPO Computer Science

Computer scientists are architects of the information society. They develop programming languages and operating systems, design computer software and hardware, apply computational techniques to other sciences, investigate social uses of computing, determine what programming language to use for a given problem, and advance new technologies like artificial intelligence and robotics.

CAREERS • • • • • • •

Computer support specialist Computer programmer Computer engineer Network manager Solar astronomer Robotic engineer Software or hardware developer • Systems and security administrator • Web designer • Researcher or professor

Aerospace Engineering and Mechanics

WHAT YOU’LL STUDY Reflecting the latest technological advances, the computer science curriculum is taught by renowned faculty, including experts on many software specializations. You will learn to design and analyze computer systems, use them to solve practical problems, and assess their limitations. Major: Computer Science Hometown: New Brighton, Minn.

You will have access to special research facilities like the Artificial Intelligence, Robotics, and Vision Laboratory, which includes lab space for undergraduate projects. You will also use state-of-the-art computing platforms and instructional facilities, including Sun, Windows, and Linux workstations and PCs. Computer science faculty conduct many interdisciplinary research projects and play a vital role in major research collaborations within the Digital Technology Center, Minnesota Supercomputing Institute, and other University research facilities.

Student profile: Emily Ruetz Watch a video to hear more from Emily. z.umn.edu/emilyr

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“The University of Minnesota has one of the best science and engineering programs among public universities. You get a great education and great value for your money.”

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PORT CAREERS

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Environmental consultant Geologist Hydrologist Mining geologist Exploration geophysicist Oil field services Water resources manager Research scientist University or college professor

Earth Sciences Earth scientists study fossils, volcanoes, tectonics, water flows, lakes, minerals, rocks—the Earth itself. Evolved from the field known as geology, the earth sciences program studies our planet from its origin to today. Earth scientists use tools from physics, chemistry, biology, chronology, and mathematics to build a quantitative understanding of how the Earth system works, how it evolved to its current state, and what changes are constantly taking place.

WHAT YOU’LL STUDY The earth sciences program is an interdisciplinary field that provides you with a strong foundation in mathematics, physics, chemistry, geology, and geophysics. You are encouraged to choose from several elective courses to meet your interests and match your talents. Within the curriculum, you may choose a broad-based academic program, or choose to focus on one specialty area. Research and teaching facilities in the earth sciences program are among the best in the world. Research laboratories are well-equipped with modern instrumentation. Major: Earth Sciences Hometown: West Bend, Wis.

Student profile: Jacquelyn Smale “CSE offers plenty of undergraduate research opportunities. I wanted to get a hands-on experience with my major, and research is the perfect way to do this.”

Watch a video to hear more from Jacquelyn. z.umn.edu/jacquelyn

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DRIV Electrical Engineering

Electrical engineers explore and generate technological advances that impact virtually every aspect of modern life. They deal with the study, research, design, and application of electricity, electronics, circuitry, and electromagnetism. They design, develop, and enhance components, software and systems for biomedical devices, energy and power applications, nanotechnology and material uses, computers, cell phones, and associated personal electronics as well as many other products.

CAREERS

• • • • • •

Embedded systems engineer Acoustic test engineer Magnetic recording engineer Automation and process technologies engineer Telecommunications or substation field engineer Electric machine design engineer Computer modeling engineer CAD and product development engineer Electrical control systems engineer

Aerospace Engineering and Mechanics • • •

WHAT YOU’LL STUDY The electrical engineering program provides a strong foundation in science, physics, mathematics, and computer science. The curriculum develops electrical knowledge and skills in practical experimentation, design and development as well as analyzing and interpreting data applicable in areas across the field of electrical engineering. The program emphasizes creative thinking, problem solving, communications skills, teamwork, and the professional and ethical responsibilities of an electrical engineer. Emphasis areas include: • Biomedical engineering • Telecommunications and signal processing • Control systems • Electric energy systems and power electronics • Microelectronic devices and circuit design • Modern optics and photonics • Magnetics Watch a video to hear more from Damennick. z.umn.edu/damennick

Major: Electrical Engineering Hometown: Beavercreek, Ohio

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Student profile: Damennick Henry “The University of Minnesota is one of the few schools that can offer an elite education, a major Division I athletic program, and a world-class city. In choosing Minnesota, I knew that I would have quality and diverse experiences.”

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VEN CAREERS

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Process engineer Regulator Consultant Water/Wastewater engineer Hydrologist Hydraulic engineer Air quality engineer Environmental health research scientist

Environmental Engineering Environmental engineers design and apply technologies to resolve issues of environmental concern. They design systems that produce safe drinking water, treat wastewater so that it can be reused and/or safely returned to the environment, accommodate municipal and hazardous waste, mitigate air pollution, and protect public health.

WHAT YOU’LL STUDY The environmental engineering program provides you with a strong foundation in chemistry, biology, environmental engineering, fluid mechanics, hydrology, and the design of drinking water and municipal wastewater treatment systems. You’ll use skills in critical thinking, deductive reasoning, and mathematical reasoning to solve complex environmental problems. A specially-designed laboratory course provides hands-on experience. The degree program contains a number of required design courses, but also substantial flexibility that allows you to tailor your education to fit your personal interests.

Major: Environmental Engineering Hometown: Madison, Wis.

Student profile: Aileen Zebrowski Watch a video to hear more from Aileen. z.umn.edu/aileen

“I like how CSE is both science and engineering. I was undecided on a major when I got here, and the combination allowed me some time to experience the college before deciding on a final major.”

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Geoengineering

Geoengineers plan, analyze, and design water and waste systems, tunnels, dams, and other facilities on or under the surface of the Earth. Using geology, physics, chemistry, mathematics, and engineering mechanics, geoengineers are involved in predicting and controlling dynamic releases of energy as in damaging rock bursts in mines. Geoengineers develop better ways to recover petroleum resources and they study the consequences of disposing unwanted fluids injected into rock formations.

Aerospace Engineering and Mechanics CAREERS • Environmental geologist • Geological advisor • Geological engineering • • • • • •

technician Geological project manager Hydraulic engineer Mining engineer Geotechnical engineer Consultant Professor

WHAT YOU’LL STUDY The curriculum includes courses in: • Geology • Civil engineering • Geoenvironmental • Geofluids • Geomechanics, and • Georesources With an additional year of study that includes a geology summer field camp, you may earn a double major in earth sciences and geoengineering.

Student profile: Emily Erhart “I chose CSE because it is a top engineering school and it is close to home. A huge factor was the scholarship I received for my academic achievements. It made the U my best choice financially.”

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Watch a video to hear more from Emily. z.umn.edu/emilye

Major: Geoengineering Hometown: Inver Grove Heights, Minn.


SPIRE CAREERS

Industrial and Systems Engineering Industrial and systems engineers design, plan, and manage largescale and complex systems ranging from global supply chains, healthcare delivery systems, and business and financial services to critical infrastructures. Employed in a wide range of industries, they figure out how to do things better and engineer processes to improve quality, productivity, and efficiency. They are in high demand as systems thinkers with unique backgrounds that integrate science, engineering, mathematics, and management.

WHAT YOU’LL STUDY The curriculum combines courses in analytics (optimization, simulation, probability, and statistics) and management (project management, economics, marketing, and quality) to support systems modeling, design, and optimization across a wide range of applications and domains.

• Systems engineer • Industrial engineer • Operations engineer • Supply chain analyst • Consultant • Quality engineer • Financial engineer • Logistics specialist • Healthcare systems analyst • Business software

developer

Major: Industrial and Systems Engineering Hometown: Lake Zurich, Ill.

After completing core courses, you may tailor your elective courses to focus on an application area such as supply chain management, manufacturing and service operations, healthcare, design, analytics, or business.

Student profile: Rachel Spatz “As an out-of-state student, I wanted to be challenged in the classroom, and CSE has lived up to its expectations. I am constantly learning and finding new ways to problem solve through every course I’ve been enrolled in.”

Watch a video to hear more from Rachel. z.umn.edu/rachel16

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CUR Materials Science and Engineering

Materials scientists and engineers advance the science and technology of producing materials for nearly every product imaginable from cell phones and artificial joints to automobiles and huge turbine rotors. Working with metals and alloys, ceramics, polymers, semiconductors, and combined materials called composites, they study a material’s properties and structure, evaluate its performance, and improve or customize it. Materials engineers also design reliable, economical manufacturing processes, and select the best material for the final product.

Aerospace Engineering and CAREERS Ceramic engineer Mechanics Component engineer • • • • • • • • •

WHAT YOU’LL STUDY

Metallurgical engineer Materials scientist Polymer engineer Process engineer Procurement engineer Quality control engineer Researcher

The curriculum includes: • courses on the fundamental of engineering materials (metals, ceramics, polymers, electronic materials, and composites), • courses on the science of materials (thermodynamics and mass transport), and • hands-on lab courses. You may choose elective courses that focus on a specialty area. Because chemical engineering and materials science are combined in a single department, there are unique opportunities to pursue a double major and work with faculty on research projects.

Student profile: Michael Johnson “I chose the University’s College of Science and Engineering because I wanted to pursue a career where I felt like I had the opportunity to follow my passions in combating waste and climate change.”

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Watch a video to hear more from Michael. z.umn.edu/michael

Major: Materials Science and Engineering Hometown: Dayton, Minn.


RIOSI CAREERS

Mathematics More than just numbers and formulas, mathematics is the study of structure, symmetry, and patterns, and their many applications to real-world problems. Mathematics has permeated every field of science and engineering, and plays an indispensible role in modern biology and medicine, finance, economics, sociology, and many other disciplines. Mathematics offers intellectual challenges and wide-ranging career opportunities that are consistently rated at the top of lists of all professions.

• Actuary • Cryptologist • Economist • Inventory strategist • Mathematician • Operations research analyst • Research scientist • Statistician • Teacher

WHAT YOU’LL STUDY The mathematics program offers undergraduate and graduate courses, and you may customize programs to meet the requirements. The mathematics major includes broad technical elective requirements as well as courses in physics. Taking courses in complementary disciplines such as engineering, physics, chemistry, computer science, statistics, biology, economics, can also expand your career options.

Major: Mathematics Hometown: Colorado Springs, Colo.

You may specialize in actuarial mathematics, computer applications, mathematical biology—genomics or physiology— or mathematics education. These specializations require additional course work. Many students who pursue the actuarial curriculum pass the first two actuarial examinations before graduation.

Student profile: Azira Rivera

Watch a video to hear more from Azira. z.umn.edu/azira

“CSE’s emphasis on undergraduate research has allowed me to apply course concepts as well as explore abstract ideas that go beyond the textbooks. I have been able to travel, network, and establish myself as a scholar and professional.”

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DRI

Mechanical Engineering

Mechanical engineering encompasses energy, transportation, bioengineering, environmental engineering, medical device design, heating and refrigeration, fluid power and fluid mechanics, manufacturing, and nanofabrication. A mechanical engineering degree is versatile and mechanical engineers often work on team projects involving aeronautics, biomedicine, civil engineering, and electronics.

CAREERS • • • • • • • • •

Automotive engineer Biomedical engineer Controls engineer Computer-aided designer Design engineer Electronics cooling engineer Environmental engineer Packaging engineer Fluid power engineer

Aerospace Engineering and Mechanics

WHAT YOU’LL STUDY Your first year provides a foundation of mathematics, physics, and chemistry. Your second and third years are devoted to the core topics: • Dynamics • Solid mechanics • Materials engineering • Thermodynamics, fluid mechanics, and heat transfer Your last year focuses on a chosen professional area through technical electives, specialized labs, and a capstone design project. Using modern computer-based tools, you’ll gain hands-on design and laboratory experience throughout the program. An optional co-op technical program is available, in addition to an integrated five-year program for a bachelor’s degree in mechanical engineering and a master’s degree in mechanical or industrial engineering.

Student profile: Jarrod Neuharth “The University of Minnesota is one of the best and most affordable schools in the nation. There are endless opportunities to develop your technical skills outside of the classroom, through student groups, research, and study abroad opportunities.”

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Watch a video to hear more from Jarrod. z.umn.edu/jarrod

Major: Mechanical Engineering Hometown: Owatonna, Minn.


IVEN CAREERS

• Researcher • Data scientist • Test and systems engineer • Laser engineer • Physicist • Technical manager • Physical scientist • Professor

Physics

Physicists explore the fundamental properties, laws, and structure of all forms of matter—living and non-living. They examine the relationships among space, time, matter, and energy. Studies range from the smallest subatomic elementary particles to galaxies forming the universe.

WHAT YOU’LL STUDY Offering a flexible, real-world approach, the physics undergraduate program prepares you for careers in physics research, engineering and applied physics, computer applications, secondary school teaching, or biomedical sciences. The program has a core curriculum and you may choose from five emphasis areas: • Professional physics • Engineering • Biology • Teaching • Computation You will learn how to construct predictive mathematical and numeric models of the physical world, and how to connect these models to observations, including experience with data analysis and synthesis. These core skills open opportunities in research, data science, and emerging fields.

Major: Physics, Mathematics Hometown: Roseville, Minn.

In a fundamental course called Methods of Experimental Physics, you will learn to use equipment, design and construct experiments, and present your results in a professional format. You are also encouraged to participate in research, either independently or as part of one of the department’s research groups. Many research opportunities are paid.

Student profile: Kendra Bergstedt “The University of Minnesota is an affordable yet wellregarded research university with tons of opportunities for research as an undergraduate, which was a big draw for me.”

Watch a video to hear more from Kendra. z.umn.edu/kendra

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Will you be ready for the 21st century workplace? With a degree from the College of Science and Engineering, you will be prepared to think creatively, challenge assumptions, and work across disciplines.

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Twice-yearly career fairs, held in the fall and spring, attract more than 260 companies located throughout the world that recruit for full-time, part-time, internship, and co-op positions. With starting salaries consistently higher than the national average, more than 95% of our graduates report they have a job in their field or are enrolled in graduate or professional school within six months of graduation.

Aerospace Engineering and The CSE Career Center offers a variety of services to help students enter the job market, including Mechanics résumé reviews, interview coaching, mock interviews, individual career counseling, job search strategies, and networking with alumni and employers.

How will I gain experience? Internships and co-ops give you the opportunity to put into practice what you learn in the classroom and even earn a salary.

INTERNSHIPS—You can gain hands-on experience

working with professionals in their major field through an internship. Science and engineering internships—most are paid—are available at public and private corporations, and government agencies. Opportunities abound with a number of Fortune 500 companies located in the Twin Cities, including UnitedHealth Group, Target, Best Buy, 3M, U.S. Bancorp, Medtronic, Ecolab, and General Mills.

WHAT’S THE AVERAGE STARTING SALARY? • Aerospace Engineering and

Mechanics - $62,000 • Astrophysics - $46,000 • Biomedical Engineering - $61,000 • Bioproducts and Biosystems • • • • • • • • • • • • •

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www.aem.umn.edu

Engineering - $60,000 Chemical Engineering - $64,500 Chemistry - $57,000 Civil Engineering - $52,000 Computer Engineering - $72,000 Computer Science - $76,500 Earth Sciences - $46,000 Electrical Engineering - $65,000 Geoengineering - $44,000 Industrial and Systems Engineering - $58,000 Materials Science and Engineering - $66,000 Mathematics - $56,000 Mechanical Engineering - $62,000 Physics - $51,000


DRIV Where do our graduates go?

CO-OP EDUCATION—Through the co-op program, you will have an

opportunity to work full-time, get paid, and earn academic credit. You will be matched with a company that is willing to help you apply what you’re learning in the classroom to real-world work in your field. Co-ops allow students to become more involved with in-depth projects and assignments and begin after you complete your sophomore year.

• • • • • • •

Minnesota – 77% Wisconsin – 5.7% Washington – 3.8% California – 2.3% Texas – 1.5% Iowa – 1.3% Other states – 8.5%

A SAMPLE OF COMPANIES THAT HIRE OUR GRADUATES 3M Accenture Amazon Apple, Inc. Barr Engineering Co. Boeing Boston Scientific Cargill Cisco Systems Cummins Eaton Corporation Ecolab Epic Systems Corp.

ExxonMobil General Electric General Mills Google Honeywell Hutchinson Technology IBM Ingersoll Rand Intel Land O’Lakes Lockheed Martin Medtronic, Inc. Microsoft, Inc.

Schlumberger Seagate Technology St. Jude Medical Starkey Hearing Technologies Symantec Target Corporation The Dow Chemical Company UnitedHealth Group US Bank UTC Aerospace Systems Xcel Energy

By the Numbers

95% CSE graduates who are employed or enrolled in grad school within six months of graduation

$65,700

67%

average starting salary

CSE students who complete an internship before graduation

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OPPO How will you build your résumé?

As a student in CSE, you have 52 weeks each year to work toward your degree and turbocharge your résumé. In CSE, we divide those weeks into something we term, “The Rule of 32/20.” For the next four years, you will attend class 32 weeks each year. During the remaining 20 weeks, we recommend you gain work experience, get involved with student groups, attend leadership programs, study abroad, build your network, join a professional organization, and more. Our Collegiate Life team will help you get the right experience beyond the classroom.

TANZANIA GLOBAL SEMINAR

Aerospace Engineering and Mechanics LEARN ABROAD—An experience abroad can be the most important and rewarding activity

you could engage in during your academic career. The University of Minnesota offers one of the nation’s largest international study programs. Programs vary in length by semester, academic year, May Session, or Winter Break. CSE offers customized technical Global Seminars. Earn credit while visiting your dream destination. You may also pursue a paid international summer internship or volunteer with one of our student groups in global development.

JOIN A STUDENT GROUP—Find your niche on campus, follow your passions, get involved, develop leadership skills, meet friends with similar interests, and make a difference. There are more than 75 active student groups associated with CSE, including professional societies and institutes, competitive project teams, honorary societies, fraternities and sororities, and more.

Ireland,

1,000+ number of student groups at the University of Minnesota-Twin Cities

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75+

France, Spain

number of student groups in CSE

countries for 2017 CSE Freshman Global Technical Seminars

CS E V I E W B O O K

www.aem.umn.edu

& Germany


PORT Can I do undergraduate research? Nearly 40 percent of CSE students experience hands-on research enabling them to develop an advanced understanding of today’s complex engineering and scientific challenges. Whether it’s through research supported by a faculty grant or contract or through the Undergraduate Research Opportunities Program (UROP), you can work in partnership with some of the best engineering and science faculty to solve problems by applying what you’ve learned in class. UROP provides funding of up to $1,500 for approximately 120 hours of research and expense money of up to $300 for project related expenses to students. CSE awarded more than $240,000 to students for UROP projects last year. Visit urop.umn.edu to learn more. By doing research, you will: • broaden your leadership skills and get a boost for your future career • become an expert in your field • build skills and learn new technologies • explore potential careers • form mentoring relationships with faculty members • collaborate with other members of your research group • prepare yourself for a job or graduate study.

725 number of CSE students who have participated in UROP over the past four years

What additional skills can I acquire? CERTIFICATE IN TECHNICAL COMMUNICATIONS—Designed to

equip you with communications skills employers are seeking, the Certificate in Technical Communications goes well beyond technical writing to embrace oral and visual communication, project design and development, digital technologies, and web-appropriate tools. A capstone project will provide students with a tangible portfolio that can be used for job interviews. The certificate (minimum of eight credits) is extremely meaningful to potential employers and graduate schools and includes a clear marker of proficiency.

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CCESS Will I succeed? CSE is rigorous and challenging and we want you to succeed while you are here. There are many support resources available to help.

ACADEMIC ADVISING—Academic advisors will help you choose courses and

Aerospace Engineering and Mechanics

prepare for registration, explore various majors, and stay on track for graduation. As an undergraduate student, you will have an academic advisor to help you navigate the college in order to reach graduation.

FIRST-YEAR EXPERIENCE—CSE 1001 is a required, one-credit First-Year Experience course fall semester where you will learn college success strategies, explore majors and careers, find ways to get involved on campus, and discover what your future in science and engineering will entail. CSE 1002 is an optional short-term study abroad opportunity during winter break, led by a CSE faculty member. CSE 1012 is an optional one- or two-credit, project-based experiential learning course for CSE freshmen offered spring semester.

LIVING LEARNING COMMUNITIES—Participation in a living

learning community offers a number of benefits, all which help to promote your academic and personal success in CSE. From the day you set foot on campus, you can live and connect with students who share your interest in science and engineering. Communities include: The Taylor House for Science and Engineering, STEM Diversity House, CSE Transfer House, University Honors Housing, CSE Second-Year Experience House, and Women in Science and Engineering (WISE) House.

500+ number of CSE students who participated in mentor programs last year

MENTOR PROGRAMS—CSE offers a variety of mentor programs

for students to connect with industry professionals or other students, including: CSE Mentor Program, North Star STEM Alliance Peer Mentor Program, CSE Ambassadors Peer Mentor Program, Society of Women Engineers Big Sis/Little Sis Mentorship program, and others.

UNIVERSITY HONORS PROGRAM—Students admitted to

the University’s Honors Program are provided with opportunities for an enriched, interdisciplinary learning environment. Honors program advising staff will help to ensure you are achieving academic success. As an honors student, you are offered honors advising, housing, social activities, and the opportunity to graduate with Latin honors.

168 number of alumni who served as mentors last year

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S B Are you ready for a Big Ten experience?

The University of Minnesota is ranked as one of the most comprehensive public universities in the United States, upholding a long-standing tradition of excellence both inside and outside the classroom. Part of the Big Ten Conference, the University of Minnesota offers great academics, exciting athletics, rich traditions, and a vibrant campus community. As a U of M student, you’ll join a campus community full of students, faculty, and staff who are passionate about being Golden Gophers! With state-of-the-art facilities, well-stocked libraries, and outstanding faculty, you’ll receive a great education at an affordable price with fellow classmates from all 50 states and more than 100 countries.

The University recognizes outstanding academic achievement with many campus-wide or college-specific scholarships. In addition to University-wide financial aid awarded to undergraduates through scholarships, loans, and work-study payments, CSE oversees and distributes more than $2.2 million in scholarships annually to freshmen, transfer, and current students. You will be considered for most academic scholarships when you apply for admission. Visit admissions.tc.umn.edu to learn more about your financial options.

Will an urban setting inspire you? You will live and study in the heart of the Twin Cities, home to a number of Fortune 500 companies—especially in computer technology, medical devices, consumer products, and other high-tech areas. Often considered one of America’s most livable communities, the MinneapolisSt. Paul metro area offers a rich variety of cultural, social, and sporting events, as well as shopping and restaurants for every taste. From parks and bike paths to theater and concerts, whatever your preferences, our diverse community will keep you active during your undergraduate years.

33.3% of the University of Minnesota Marching Band is composed of CSE students

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Do you want to learn more? Yes, admission to the College of Science and Engineering is competitive. Traditionally, 99 percent of new freshmen rank in the top 25 percent of their high school graduating class. Applicants are reviewed on: • Successful completion of a college preparatory curriculum, • High school rank percentile, • Grade point average, • ACT or SAT scores, • Strength of curriculum through high school graduation, including courses that exceed the core subject requirements and any advanced courses (i.e. honors, advanced placement, international baccalaureate, college level), and • Many other factors.

Aerospace Engineering and Mechanics

There is no better way to learn about our college than to visit campus. SCHEDULE YOUR VISIT TODAY! online at: admissions.tc.umn.edu/visit For more information, visit admissions.tc.umn.edu or call 612-625-2008. For students interested in transferring to CSE, call 612-625-6403 or email csetrans@umn.edu

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CS E V I E W B O O K


CSE.UMN.EDU CONTACT US: To learn more about the College of Science and Engineering and its undergraduate programs, contact CSE Student Services at csestudent@umn.edu or 612-624-2890.

JOIN OUR NETWORKS!

facebook.com/umn.cse @UMNCSE youtube.com/umncse cse.umn.edu/linkedin cse.umn.edu/flickr cse.umn.edu/google+

This publication was produced by the College of Science and Engineering Communications Office in cooperation with the College of Science and Engineering Student Services, Academic Advising, and Career Center Offices. Photography by Richard G. Anderson with contributions from Patrick O’Leary, and Josh Kohanek. The University of Minnesota is an equal opportunity educator and employer. This publication is available in alternate formats for those with visual impairments by calling 612-626-7959. Printed on recycled and recyclable paper with at least 10 percent postconsumer material. Š 2016 Regents of the University of Minnesota. All rights reserved.

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College of Science and Engineering 105 Lind Hall 207 Church St. S.E. Minneapolis, MN 55455

Nonprofit Org. U.S. Postage P A I D Twin Cities, MN Permit No. 90155

DRIVEN COLLEGE AT A GLANCE

ENROLLMENT*

• Undergraduate students – 5,332 • Graduate students – 2,732

FRESHMAN CLASS* 1,076 enrolled 352 are female (32.7 percent), an all-time high average ACT score – 31.5, an all-time high 90 of the University’s 147 National Merit Scholars are in CSE • • • •

NEW TRANSFER STUDENTS*

• 324 enrolled from non-University of Minnesota programs • 247 enrolled from other University of Minnesota programs • average transfer GPA in math, science, engineering coursework – 3.6

DEGREES GRANTED* • Undergraduate – 1,253 • Master’s – 535 • Doctoral – 226

ALUMNI • More than 65,000 living alumni, including about 250 who have received the University of Minnesota’s Outstanding Achievement Award. • Alumni have founded 2,600 Minnesota companies, employing more than 175,000 and generating approximately $46 billion in annual revenue. and generating annual revenues of $90 billion.

• Worldwide, alumni have founded 4,000 companies, employing 551,000

*2015 statistics


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