Engineering isn’t just about understanding theory — it’s about applying it to solve real-world problems. At ÃÄÄïÖ±²¥, students master both the fundamentals of engineering science and the hands-on skills needed to bring ideas to life. With state-of-the-art labs, small class sizes, and industry-connected faculty, students graduate ready to innovate and lead in their field.
 

Engineering Programs at ÃÄÄïÖ±²¥

Our programs prepare students for high-impact careers in today’s most in-demand engineering fields.
 

Undergraduate Programs (B.S.)

Mechanical Engineering


Learn to design and develop machines, robotics, and energy-efficient systems for industries like aerospace, manufacturing, and healthcare.
 

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Electrical Engineering


Work with circuits, smart technologies, and power systems to develop cutting-edge electronics.
 

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Industrial Engineering Technology and Management (planned for Fall 2025)


Improve manufacturing, logistics, and business operations with a mix of engineering, design, and business coursework.

Civil Engineering (planned for Fall 2025)


Design and construct bridges, roads, and infrastructure that shape the modern world.

 

Graduate Program (M.S.)

Engineering Management (MSEM)


Designed for working engineers looking to advance into leadership roles, this program blends engineering expertise with business and management skills to prepare students for management and team-lead positions in engineering-driven industries.
 

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In This Section

John R. Post School of Engineering

Explore Engineering
What makes ÃÄÄïÖ±²¥'s engineering programs special? Learn more in this video.


 

Don’t Just Learn Engineering — Do Engineering

  • Theory Meets Application: Courses balance rigorous engineering principles with real-world problem-solving, ensuring students gain both the knowledge and the experience to succeed.
  • Hands-On Learning from Day One: Every year includes a design-focused course where students apply what they learn in class to practical, industry-relevant challenges.
  • Small Classes, Big Opportunities: With lecture sizes of around 20 students and labs capped at 16, students get individualized attention and direct faculty mentorship.
  • Liberal Arts Advantage: Employers value more than just technical skills. ÃÄÄïÖ±²¥â€™s liberal arts core strengthens students’ abilities in communication, critical thinking, and leadership—skills essential for success in engineering careers.
  • Explore Your Choice of Major: All engineering majors take the same foundational courses in the first year, allowing them to explore different fields before specializing in their second year.
  • Athlete-Friendly Scheduling: Flexible class times accommodate student-athletes, allowing them to excel both in their sport and in their studies.

     

Hands-On Learning in Cutting-Edge Labs

Understanding theory is just the beginning—at ÃÄÄïÖ±²¥, students apply their knowledge in advanced lab spaces designed for real-world experimentation and innovation.

  • Materials Testing Lab: Analyze the strength and properties of materials used in construction, aerospace, and product design.
  • Fluids Lab: Explore how liquids and gases behave in engineering systems, essential for energy, aviation, and hydraulic applications.
  • Heat Transfer Lab: Investigate how heat moves through different materials, a key factor in thermal system design.
  • Mechatronics and Circuits Labs: Design and program robotic systems, automated machinery, and electronic circuits.
  • Machine Shop and 3D Printing Lab: Gain design experience in prototyping, precision manufacturing, and rapid product development.
  • Concrete and Steel Structures Lab (Upcoming): Learn about the materials and structural principles behind safe, durable buildings and infrastructure.
  • Geotechnical and Soils Lab (Upcoming): Study how soil composition affects foundation design, construction, and environmental impact.
Mechanical Engineering
Experience Engineering
Choosing the right engineering school is about finding the best fit for your learning style and career goals. At ÃÄÄïÖ±²¥, students receive a highly personalized, hands-on education that prepares them for success. Visit our campus, tour our labs, and meet our faculty to discover what makes ÃÄÄïÖ±²¥ Engineering different.
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Designed for Success

Alvernia’s engineering curriculum is structured to combine technical depth with hands-on experience, ensuring students graduate ready to tackle real-world challenges.

• First-Year Foundations: Build a strong base in math, physics, computer programming, and engineering fundamentals while exploring different fields.
• Annual Design Courses: Each year, students work on increasingly complex projects that challenge them to apply classroom knowledge to practical problems sponsored by local industry partners.
• Internships and Co-Ops: Gain real-world industry experience through internships, research opportunities and company-sponsored projects.
• Senior Capstone Project: Collaborate on a year-long, industry-sponsored project to develop innovative engineering solutions.

 

Industry Connections and Student Organizations

Success in engineering requires more than just technical skills — it’s about leadership, networking, and collaboration.

  • : Open to all engineering students, ASME provides networking, competitions, and career development opportunities.
  • : A supportive community offering mentorship, leadership training, and career advancement.
  • Engineering Seminars: Hear from industry leaders, faculty researchers, and top companies on the latest advancements in engineering.

     

Learn More

For more information, please contact the Admissions Office at 1-888-ALVERNIA or 610-796-8269 or admissions@alvernia.edu.