Engineering, Infrastructure & Innovation Majors
Engineers use science and technology to make the world a better place. Engineers design roadways and the cars that drive on them. They build systems that clean water and machines that generate clean energy. And they create tools and devices that we rely on for both work and play—from computers to custom skis that bring out your best on the slopes.
Building a Sustainable World
Environmental engineers and sustainability experts focus on techniques for soil remediation, utilize green infrastructure for stormwater management, and employ renewable energy systems to reduce carbon emissions. A multidisciplinary approach in collaboration with scientists and leaders in local communities is essential to ensure the effectiveness and feasibility of these solutions.
Civil engineers focus on infrastructure and urban planning solutions, such as designing efficient public transportation systems to reduce reliance on individual vehicles, implementing green stormwater management techniques to prevent runoff pollution, and constructing sustainable wastewater treatment facilities.
Machines and Tools to Changes Lives
Engineering can take many forms, but a core discipline is forging the mechanical systems that put these principles into action.
Mechanical engineers use science, mathematics, and materials science to create innovative solutions that address a wide range of challenges. They work in industries like automotive, aerospace, energy, and manufacturing and may be involved in the development of consumer products, HVAC systems, robotics, and renewable energy technologies. Mechanical engineers also test prototypes and analyze them to continue to improve their designs.
Electromechanical engineers work in similar ways with an added focus on incorporating and optimizing the mechanical components of these systems. Through an interdisciplinary approach, these engineers utilize electrical and mechanical principles to contribute to the design and implementation of wind turbines, hydroelectrical generators, and solar panels. These concepts are also applied to the development of electric vehicles where they can enhance the performance, efficiency, and durability of EVs and make adoption of these technologies more attractive for consumers.
Designing Medicines and Medical Devices
Engineers are at the center of research and development to improve medical outcomes through both organic and technological means. They develop innovative solutions for diagnosing, treating, and preventing diseases by leveraging their expertise in fields like genetic engineering, biomedical devices, tissue engineering, and drug delivery systems.
Biological engineers contribute to advancing medicine through a multidisciplinary approach that combines principles of biology, engineering, and technology. They work on developing methods like gene therapies and targeted drug delivery systems to address complex medical conditions. Biological engineers also contribute to the field of regenerative medicine by designing biomaterials that promote tissue repair and regeneration. With their skills and innovation, they continue to push the boundaries of medicine to improve patient care.
Biomedical engineers apply engineering principles and techniques to solve healthcare challenges. They develop medical devices with a range of applications such as MRI and CT scanners, prosthetic limbs, artificial organs, and wearable health monitoring devices. Biomedical engineers play a crucial role in medical research by designing experiments, analyzing data, and collaborating with healthcare professionals to translate research findings into clinical practice.
Programming that Moves Us into the Future
Computer science and robotics are consistently used to push technology forward at an accelerating pace.
Using computer science expertise, programmers help automate systems and improve connectivity and communication to advance industries like healthcare, education, finance, tech, and more. Data analysis, machine learning, and artificial intelligence can optimize formerly manual systems and help us think of new and innovative solutions to society's challenges.
Robotics advancements improve transportation systems, including autonomous vehicles, smart traffic management, and logistics optimization. These technologies enhance safety, efficiency, and accessibility in urban and rural areas, transforming the way people and goods are transported. Robots also enable exploration in environments inaccessible or hazardous to humans and gather data, conduct experiments, and perform tasks in these environments, advancing scientific knowledge and discovery.