1) An introduction to the sport of dog agility; 2) Injuries and health needs assessment; 3) Orthopedic evaluation; 4) Shoulder and digit injuries; 5) Iliopsoas injuries and cranial cruciate ligament ruptures; 6) Working with the traveling competitor and dogs.
Workshop / Seminar
August 2022
LIFT Faculty Fellowship Program (Learn. Inspire. Foster. Transform.) is designed to support instructors in this work. We use teaching methods that have been shown to improve students’ engagement, connection, and learning, to decrease course withdrawal and fail rates, and to increase retention. Dr. Sarah Guess will present her experience as a LIFT Fellow.
Title: Thermodynamics of f-block condensed matters
With the continuous deployment of distributed energy resources (DER), behind-the-meter resources, advanced sensors, and grid-edge intelligence in recent years, the distribution power grid monitoring and operation is increasingly becoming complex. Effectively leveraging the massive amount of data available with digital automation to achieve situational awareness (SA) for the right operational decisions is critical to enhancing system resiliency, stability, and sustainability.
Presenter: Dr. Heloisa Rutigliano
Associate Professor, Utah State University, Animal Dairy & Veterinary Sciences
With the increasing emissions of green-house gases and the changing attitudes toward fossil fuels the energy landscape is rapidly evolving. Energy sources that were once dominant are facing more intense scrutiny due to their polluting effects. One of the alternative clean power sources is hydrogen; however, in its compressed gaseous form, the wide applicability of hydrogen will remain limited. In an attempt to increase the use of hydrogen to store and transport clean energy, we have turned to dissolvable hydrogen sources: formate salts.
This seminar chronicles the development of digital waveform mass spectrometry by our group at WSU in terms of the theory, hardware, and methods. It provides a timeline and reasoned path for the development of digital waveform technology (DWT) in pursuit of extending the working range of mass spectrometers to cover the complete range of intact proteins and biological complexes.