Conference Session

ELOS Technical Session 5: BYOE (Bring Your Own Experiment): Innovative Tools and Techniques for Experiential Engineering Education

Collection

2025 ASEE Annual Conference & Exposition

Authors

Alex Shaffer, University of Illinois at Urbana - Champaign; Raluca Ilie, University of Illinois Urbana-Champaign

Tagged Divisions

Experimentation and Laboratory-Oriented Studies Division (DELOS)

from [9]: µ0 I ˆ B= ϕ (3) 2πswhere s represents the perpendicular distance from the wire, and ϕˆ is the azimuthal basis vector,and I is the current magnitude. When multiple sources (current-carrying wires) are present, theresulting magnetic field is the sum of all fields sourced by each individual wire, according to theprinciple of superposition. Therefore, it is possible to visualize the magnetic field associated witha system containing an arbitrary number of infinite current-carrying wires in a VR environment.The user may interactively manipulate the

Conference Session

ELOS Technical Session 6: BYOE (Bring Your Own Experiment): Engaging Students with Creative Hands-on Laboratory Experiences

Collection

2025 ASEE Annual Conference & Exposition

Authors

Erick Rodriguez-Seda, United States Naval Academy

Tagged Divisions

Experimentation and Laboratory-Oriented Studies Division (DELOS)

, consists of five 1-DoF rotational robotic linksplaced one next to the other and mounted on a 60 cm × 12 cm acrylic frame. Each link has aHitech HS-475HB servo motor, an Adafruit BNO055 Inertia Measurement Unit (IMU) sensor,and an STM32 Nucleo-L432KC microcontroller (refer to Figure 2). The Hitech HS-475HB Servomotor is the actuator of the robotic link, with a range of rotation of about 180o . It accepts a PulseCode Modulation (PCM) signal with a minimum of 500 µs and a maximum of 2500 µs of width.The Adafruit BNO055 IMU sensor is an intelligent 9-Axis absolute orientation sensor thatintegrates a triaxial 14-bit accelerometer, a triaxial 16-bit gyroscope with a range of ±2000o /s, atriaxial geomagnetic sensor, and its own 32-bit ARM Cortex M0

Conference Session

ELOS Technical Session 4: Empowering Student Learning Through Design, Integration, and Assessment

Collection

2025 ASEE Annual Conference & Exposition

Authors

Grace Yemisi Balogun, Morgan State University; David Olusogo Owolabi, Morgan State University; Michael Oluwafemi Ige, Morgan State University; Tolulope Abiri, Morgan State University; Pelumi Olaitan Abiodun, Morgan State University; Oludare Adegbola Owolabi P.E., Morgan State University

Tagged Topics

Diversity

Tagged Divisions

Experimentation and Laboratory-Oriented Studies Division (DELOS)

21st, 2025.[4] Cervone, G., Franzese, P., Ezber, Y., and Boybeyi, Z. “Risk assessment of atmospheric emissions using machine learning”, Nat. Hazards Earth Syst. Sci., 2009, 8, 991–1000.[5] Chen, J., Kong, H., Su, Y., and Zhang, H. “Indoor air quality monitoring system for smart buildings: A comprehensive review”. Building and Environment, 2021, 196, 107786.[6] Cuesta-Mosquera, A., Močnik, G., Drinovec, L., Müller, T., Pfeifer, S., Minguillón, M. C., Briel, B., Buckley, P., Dudoitis, V., Fernández-García, J., Fernández-Amado, M., Ferreira De Brito, J., Riffault, V., Flentje, H., Heffernan, E., Kalivitis, N., Kalogridis, A.-C., Keernik, H., Marmureanu, L., Luoma, K., Marinoni, A., Pikridas, M., Schauer, G., Serfozo, N

Conference Session

ELOS Technical Session 1: Integrating AI, VR, and MR in Engineering Lab Experiences

Collection

2025 ASEE Annual Conference & Exposition

Authors

Justin Foreman, Prairie View A&M University; Penrose Cofie, Prairie View A&M University; Keisha C. A. Antoine, Prairie View A&M University (DUPE); Michael Preuss, Exquiri Consulting, LLC; Kazeem B Olanrewaju, Prairie View A&M University; Joseph Dowell; Jorge Federico Gabitto, Prairie View A&M University

Tagged Divisions

Experimentation and Laboratory-Oriented Studies Division (DELOS)

voltmeter (multimeter set to measure voltage) across the supply and measure the source voltage.4. Apply an ammeter (multimeter set to measure amps) in series in the circuit.5. Turn ON the power supply and adjust it so that the output is 12V as measured on the Voltmeter. This is the source voltage Vs.6. Measure the source current using the Ammeter and enter the current value on the Data Sheet (I s for I source) Also measure the current through the 470,1000- and 1500-Ohm resistors and place the values in the table below.7. Remove the Voltmeter from the power supply and measure voltages across each of the resistors in the circuit. Enter the voltage values for each resistor on the Data Sheet.8. Now turn OFF the power