A recent projection noted that over 7 million jobs will be created in the nano and bio-related field world wide by 2015. The expected growth of such jobs suggests a critical need to prepare and train the workforce for these emerging fields. This paper describes a collaborative approach between three universities to integrate nano/bio technology into the mechanical engineering (ME) undergraduate curriculum by incorporating teaching modules into core ME courses. The teaching modules focus on the

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... undamental concepts in modeling and control of smart material based actuators (or smart actuators), and they were designed for ME courses in system dynamics, controls, and mechatronics. The piezoelectric actuator, a type of smart actuator, has become increasingly important because of its ability for precision positioning (actuation) or sensing in nano and bio-related technologies. The developed modules use the piezoactuator as an example smart actuator. First, students are taught the fundamental concepts of modeling the input-tooutput behavior of piezoactuators. This component begins with a discussion of the piezoelectric effect, followed by the modeling of the vibrational dynamics effects based on the frequency response concept. Students are also introduced to hysteresis, a nonlinear behavior inherent in piezoactuators and other smart actuators. Second, to complement the topics in modeling, lectures were developed to convey the state-of-the-art in high-precision control of piezoactuators for various nanopositioning applications, such as scanning probe microscopes. Four experiments were designed to provide students with hands-on experience with modeling and control of piezoactuators. The teaching materials were implemented at the three universities and preliminary assessment results are presented to demonstrate the initial impact of the project. Particularly, the results of the pre and post tests, surveys, and focus group studies in the context of the expected learning outcomes are presented. In general, the results suggested that student learning and perceptions were positively impacted by the developed teaching materials.