Displaying all 2 results
- Conference Session
- Multidisciplinary Engineering Division (MULTI) Technical Session 6
- Collection
- 2023 ASEE Annual Conference & Exposition
- Authors
- Darcie Christensen, Minnesota State University, Mankato; Lauren Singelmann, Minnesota State University, Mankato; Rob Sleezer, Virginia Tech; Emilie A. Siverling, Minnesota State University, Mankato
- Tagged Topics
- Diversity
- Tagged Divisions
- Multidisciplinary Engineering Division (MULTI)
students really know when they struggle with a question (e.g., maybe they understand the concept but don’t remember all the exact vocabulary, maybe they need a hint for the first part but can figure out the rest from there). • Evaluator can ask questions that challenge students who are otherwise acing the exam. • Students know the full list of questions that could be asked with the most important ones noted, so studying is straightforward AND no one is upset by a “surprise” question. • Verbal Exam Expectations document is based on things they have alread y done (Describe sheet, HW Problem, quiz problem, DLA, etc.). • Students get Verbal Exam grade immediately (at end of exam) and feedback sheet that day via
- Conference Session
- Multidisciplinary Engineering Division (MULTI) Technical Session 6
- Collection
- 2023 ASEE Annual Conference & Exposition
- Authors
- Masoumeh Farhadi Nia, University of Massachusetts, Lowell; Grace E. Callen; Gayatri Aroskar, University of Massachusetts, Lowell; Justin An, University of the District of Columbia; Kavitha Chandra, University of Massachusetts, Lowell; Charles Thompson, Ph.D., University of Massachusetts, Lowell; Kelilah Wolkowicz, University of Massachusetts, Lowell; Max Denis, University of the District of Columbia
- Tagged Topics
- Diversity
- Tagged Divisions
- Multidisciplinary Engineering Division (MULTI)
units.The system parameters m, k and c can be estimated from geometrical and physical properties of 𝛾ℎ𝜆the semicircular canal as shown in Rabbitt [35]. The stiffness parameter 𝑘 = 𝐴2 where 𝛾 is the 𝑐elastic shear modulus of the cupula, Ac is the frontal area of the cupula, h is the thickness of thecupula. The parameter 𝜆 ≈ 8𝜋 for low frequency movements of less than 6 Hz. The hydraulic 𝜇𝑙𝜆resistance 𝑐 = 𝐴2 , where 𝜇 is the viscosity of the endolymph, 𝑙 is the length along the centerline