An introduction to fluid power components and systems. The course includes component selection, circuit design, electrical interfaces, and system troubleshooting and maintenance. A laboratory exposes ...

Faster than a speeding bullet -- almost. More powerful than a locomotive -- most definitely. Able to leap tall buildings in a single bound -- certainly possible. And unnoticed by the casual observer.

The engineering curriculum draws inspiration from areas that align with Brandeis' existing strengths, including bioengineering and materials science, while enhancing our existing undergraduate and ...

Fluid Power and Pneumatic systems provides a hands-on approach to creating an enclosed system for measurement. Students learn various system components and designs while creating interactive ...

What governs the speed at which raindrops fall, sediment settles in river estuaries, and matter is ejected during a supernova? These questions circle around one, deceitfully simple factor: the rate at ...

There is frequently a great deal of uncertainty and misinformation around heat transfer systems, including their proper use and maintenance, causing dread and anxiety among system operators. This fear ...

The systems engineering master’s degree provides engineers and technology professionals with a deep understanding of the entirety of complex systems and processes. As a student, you will gain insights ...

Develop skills and competencies in fluid power, electro-hydraulics, dynamics, and kinematics of robotic platforms. Apply holistic safety to mechatronic systems. Join a rapidly growing industry of ...