B.S. in Chemical Engineering and M.S. in Biomedical Engineering 

The foundation you will build in chemistry, physics, biology, and mathematics – and your collaborations involving engineering disciplines such as computer science, and mechanical, electrical, and civil engineering – will prepare you to rise to the challenges that face both the modern-day chemical engineer and the world. Those challenges — hallmarks of the early 21st century — include environmental integrity, limited resources, and human safety. Combine the cutting edge and dynamic field of Biomedical engineering to create health centered treatments, devices, and processes.

Explore the programs: B.S. in Chemical Engineering | M.S. in Biomedical Engineering

B.S. in Chemical Engineering and M.S. in Chemistry 

The foundation you will build in chemistry, physics, biology, and mathematics – and your collaborations involving engineering disciplines such as computer science, and mechanical, electrical, and civil engineering – will prepare you to rise to the challenges that face both the modern-day chemical engineer and the world. Those challenges — hallmarks of the early 21st century — include environmental integrity, limited resources, and human safety. In addition to developing an expertise in organic, analytical, and computational chemistry, you’ll take courses in biomedical engineering, civil engineering, computer science, math, and cellular and molecular biology.

Explore the programs: B.S. in Chemical Engineering | M.S. in Chemistry

B.S. in Chemical Engineering and M.S. in Environmental Engineering 

The foundation you will build in chemistry, physics, biology, and mathematics – and your collaborations involving engineering disciplines such as computer science, and mechanical, electrical, and civil engineering – will prepare you to rise to the challenges that face both the modern-day chemical engineer and the world. Those challenges — hallmarks of the early 21st century — include environmental integrity, limited resources, and human safety. Federal funding for sustainable and “green” development has also led to an increase in environmentally friendly infrastructure projects, which has driven demand for civil and environmental engineers.

Explore the programs: B.S. in Chemical Engineering | M.S. in Environmental Engineering

B.S. in Chemical Engineering and M.S. in Environmental Engineering 

The foundation you will build in chemistry, physics, biology, and mathematics – and your collaborations involving engineering disciplines such as computer science, and mechanical, electrical, and civil engineering – will prepare you to rise to the challenges that face both the modern-day chemical engineer and the world. Those challenges — hallmarks of the early 21st century — include environmental integrity, limited resources, and human safety. Federal funding for sustainable and “green” development has also led to an increase in environmentally friendly infrastructure projects, which has driven demand for civil and environmental engineers.

Explore the programs: B.S. in Chemical Engineering | M.S. in Environmental Engineering

B.S. in Civil Engineering and M.S. in Environmental Engineering 

The tools you need for success in civil engineering are the tools you’ll find in our bachelor’s program. As you become steeped in a climate that inspires innovation, you’ll broaden and deepen your knowledge through a painstakingly designed, interdisciplinary curriculum. Federal funding for sustainable and “green” development has also led to an increase in environmentally friendly infrastructure projects, which has driven demand for civil and environmental engineers.

Explore the programs: B.S. in Civil Engineering | M.S. in Environmental Engineering

B.S. in Civil Engineering and M.S. in Civil Engineering 

The tools you need for success in civil engineering are the tools you’ll find in our bachelor’s program. As you become steeped in a climate that inspires innovation, you’ll broaden and deepen your knowledge through a painstakingly designed, interdisciplinary curriculum. Students can move into careers in sustainability, environmental engineering, structural engineering, and construction management.

Explore the programs: B.S. in Civil Engineering | M.S. in Civil Engineering

B.S. in Computer Engineering and M.S. in Electrical Engineering 

Computer engineering involves the design and development of computer hardware and software and an understanding of how the computer and its devices interact — which is why computer engineering is closely allied with electrical engineering and computer science. Combine an advanced degree in electrical engineering to gain a mastery of communication, signal processing, power systems, control systems, and digital and computer systems.

Explore the programs: B.S. in Computer Engineering | M.S. in Electrical Engineering

B.S. in Computer Engineering and M.S. in Computer Science 

Computer engineering involves the design and development of computer hardware and software and an understanding of how the computer and its devices interact — which is why computer engineering is closely allied with electrical engineering and computer science. Combine an advanced degree in Computer Science to master in demand areas in data, cyber, wireless networks, and system architecture.

Explore the programs: B.S. in Computer Engineering | M.S. in Computer Science

B.S. in Computer Engineering and M.S. in Data Science 

Computer engineering involves the design and development of computer hardware and software and an understanding of how the computer and its devices interact — which is why computer engineering is closely allied with electrical engineering and computer science. Combine an advanced degree in Data Science, and you will develop proficiencies in the key skills expected of leading data scientists, including deep learning and statistical analysis, and the data skills needed to work with unstructured data and Natural Language Processing (NLP).

Explore the programs: B.S. in Computer Engineering | M.S. in Data Science

B.S. in Electrical Engineering and M.S. in Biomedical Engineering 

As an electrical engineering major at the University of New Haven, you will study the behavior of electrons in three areas — electricity, electronics, and electromagnetism — as you learn to design, develop, and oversee the operation of electrical and electronic systems. Combine the cutting edge and dynamic field of Biomedical engineering to create health centered treatments, devices, and processes.

Explore the programs: B.S. in Electrical Engineering | M.S. in Biomedical Engineering

B.S. in Electrical Engineering and M.S. in Computer Science 

As an electrical engineering major at the University of New Haven, you will study the behavior of electrons in three areas — electricity, electronics, and electromagnetism — as you learn to design, develop, and oversee the operation of electrical and electronic systems. Combine an advanced degree in Computer Science to master in demand areas in data, cyber, wireless networks, and system architecture.

Explore the programs: B.S. in Electrical Engineering | M.S. in Computer Science

B.S. in Electrical Engineering and M.S. in Data Science 

As an electrical engineering major at the University of New Haven, you will study the behavior of electrons in three areas — electricity, electronics, and electromagnetism — as you learn to design, develop, and oversee the operation of electrical and electronic systems. Combine an advanced degree in Data Science, and you will develop proficiencies in the key skills expected of leading data scientists, including deep learning and statistical analysis, and the data skills needed to work with unstructured data and Natural Language Processing (NLP).

Explore the programs: B.S. in Electrical Engineering | M.S. in Data Science

B.S. in Electrical Engineering and M.S. in Electrical Engineering 

As an electrical engineering major at the University of New Haven, you will study the behavior of electrons in three areas — electricity, electronics, and electromagnetism — as you learn to design, develop, and oversee the operation of electrical and electronic systems. Combine an advanced degree in electrical engineering to gain a mastery of communication, signal processing, power systems, control systems, and digital and computer systems.

Explore the programs: B.S. in Electrical Engineering | M.S. in Electrical Engineering

B.S. in Engineering and M.S. in Biomedical Engineering 

Our undergraduate engineering program allows student to receive a comprehensive general engineering education, with emphasis on teamwork, communication, professionalism, projects, problem solving, and analysis. Combine the cutting edge and dynamic field of Biomedical engineering to create health centered treatments, devices, and processes.

Explore the programs: B.S. in Engineering | M.S. in Biomedical Engineering

B.S. in Engineering and Fast-Track MBA 

Our undergraduate engineering program allows student to receive a comprehensive general engineering education, with emphasis on teamwork, communication, professionalism, projects, problem solving, and analysis. Combine this with our Master of Business Administration, and you will be able to lead and manage a team or firm by gaining skillsets in marketing, management, accounting, finance, economics, sales, and supply chains.

Explore the programs: B.S. in Engineering | MBA

B.S. in Mechanical Engineering and M.S. in Mechanical Engineering 

Through our program, you’ll build a multidisciplinary foundation in mechanical, chemical, civil, and electrical engineering and develop skills in physics, chemistry, and mathematics as well. Master the techniques, skills, and engineering tools to harness moving parts and systems.

Explore the programs: B.S. in Mechanical Engineering | M.S. in Mechanical Engineering