Redefining Engineering Education with Moku:Go: Strategies for Success at Oregon State University

February 23, 2023 at 1:00pm CT | 2:00pm ET

Register Now

Brought to you by:

In this special presentation, Ben Nizette, Director of Product at Liquid Instruments, and Jason Clark, Associate Professor at Oregon State University, will share how Moku:Go is revolutionizing engineering education and inspiring students with its suite of 10+ software-defined instruments supported by a simple user interface.

Professor Clark will outline how he uses Moku:Go to encourage remote learning and engage students with modern technology, from reinforcing the basics to exploring advanced topics sooner. He’ll also share how Moku:Go helps connect engineering topics to pressing social issues.

In addition, you’ll learn more about the features and benefits of Moku:Go, see a hands-on demonstration of the software, and explore applications and use cases across education and industry to discover how Moku:Go helps prepare students for the demands of the modern workforce.

Speakers

 Ben Nizette, Director of Product, Liquid Intruments

Ben Nizette currently serves as Director of Product at Liquid Instruments, the leader in precision software-defined instrumentation, revolutionizing the way that students, scientists, and engineers learn, discover, and create. In his role at Liquid Instruments, Ben spearheaded the Moku:Go project, delivering the company's first consumer product with a focus on education at an accessible price point. The first-ever engineer hired at Liquid Instruments, Ben is fueled by a deep passion for technology, and hopes to remove some of the fear and intimidation around the core equipment used in the test and measurement field every day.

 Jason Clark, Associate Professor, Oregon State University

Jason Clark received a Ph.D. in Applied Science & Technology from the University of California at Berkeley in 2005. In 2022, he joined Oregon State University as an associate professor of practice, where he is currently working on developing the first 3D printable polymer smart machines that can actuate, sense, and compute through Polymechatronics (PMT); bringing accuracy to micro and nanotechnologies through Electro Micro Metrology (EMM); enabling microelectromechanical systems to modify their performance on demand by changing their effective mass, damping, and stiffness PODMEMS; developing insect-like dexterity for microrobotics through Microids; addressing the grand challenge of personalized learning through a novel Intelligent Tutoring System (ITS); developing a type of artificial intelligence for solving engineering tasks called Artificial Engineering (AE); and creating novice-friendly Computer-Aided Design and Engineering (CAD/E) tools.

Register Now