Strategies and methods of designing, manufacturing, and testing of mechanical products. Engineering drawing and CAD, design methods, material properties, failure modes, selection methodology, ...

Introduction to a wide range of computational techniques for engineering design. Modeling, simulation, optimization, design software, examples/projects with emphasis on computational techniques for ...

Representations of the configuration and spatial motion of rigid bodies and robots based on modern screw theory. Forward, inverse, and differential kinematics. Robot dynamics, trajectory planning, and ...

The objective is to give students an introduction to the essential fluid mechanical concepts needed to work in some of the most contemporary areas of mechanical engineering: microfluidics, ...

This is a first-of-its-kind graduate course dedicated to engineering students who are interested in taking their research beyond lab novelty. If you are a student of technology who is full of ideas ...

Modeling the dynamic behavior of physical systems. Concepts of causality, dependent and independent storages, and state. Introduction to bond graphs. Generation of state equations; analytical and ...

Developing human-centered, physics-based, and AI-enabled design methods for creating engineering products and systems that address societal challenges Design combines engineering, business, the arts, ...

The Mechanical Engineering Graduate Student Society (MEGSS) provides a student voice on departmental issues like faculty selection and curriculum matters. In this way, the concerns of the graduate ...

Analysis of vibrations in single- and multidegree-of-freedom systems. Free and forced vibrations with various types of damping. Response to transite-state and transient excitations. Complex machines ...

MEMS and Nanotechnology have attracted significant attention in the engineering, chemistry, and biology communities. An important component of this development is experimentation with the ability to ...

On land, in air, in space, and underwater, as individuals and as teams, autonomous machines increasingly impact infrastructure, healthcare, security, manufacturing, and the environment. Our research ...

This course will cover advanced topics in the development and analysis of numerical methods for simulation of rigid body motion. Topics will include forward error ...