VR Module · Electrical · Engineering
Induction Motor - VR module.
Explore a three-phase induction motor in VR - see the stator and rotor, the rotating magnetic field, and how slip produces torque.
See it
Module media.
Learning objectives
By the end of this module, students will be able to:
Identify the stator and rotor of an induction motor
Explain how a rotating magnetic field is produced
Describe slip and how it relates to torque
Observe how load affects speed and current
Complete a scaffolded assessment on induction motor operation
About the module
An induction motor you can see working from the inside.
The rotating magnetic field is hard to picture. This module makes it visible - students see the stator field rotate and the rotor chase it, building intuition for how torque is produced.
Students take the motor apart, identify the stator and rotor, and operate it to see how load changes slip and current.
The 7thi AI tutor sits alongside the whole experience, scaffolding the difficult parts and giving subject-aware answers in context. Built-in assessment lets faculty see, per student, who has grasped which concepts - without grading another paper.
ABET (United States)
Supports ABET Student Outcomes 1 and 6 - applying engineering knowledge and conducting experimentation. Detailed mapping available on request.
IEAC (United Kingdom)
Aligned with Washington Accord graduate attributes for complex engineering problem-solving and investigation. Detailed mapping available on request.
University syllabi
We map this module to your institution's own electrical machines syllabus before deployment. Request a custom mapping.
NBA (India)
Maps to Course Outcomes in Electrical Machines, contributing to POs around problem-solving and modern tool usage.
Get this module
Included in these iXRLabs packages.
Electrical Engineering
CoreElectrical VR modules - machines, power systems, transformers, drives, and control.
Complete Engineering
All disciplinesThe full engineering library - 240+ modules across mechanical, civil, and electrical, including Induction Motor.
Custom rollout
QuotePick specific modules, devices, and seat counts. We'll scope a deployment for your department.
7thi and assessment in this module
7thi in this module
Students can ask 7thi questions at any point - about electrical machines or anything they see in the simulation. 7thi answers in context, without breaking the flow.
Assessment
Session data - concepts mastered, time per scene, assessment scores - appears on the faculty dashboard. Export to your LMS via xAPI.
Keep exploring
Related engineering modules.
What prior knowledge do students need?
Foundation-level understanding of electrical machines. Suitable for undergraduate students and above.
How long is a typical session?
About 30 minutes for a full run including assessment. Students can pause and resume, and faculty can assign specific parts rather than the whole module.
Can this be used in a flipped classroom?
Yes. Students complete the VR module before the lecture, so class time focuses on analysis and discussion.
Is the assessment graded automatically?
Yes. Assessment scores appear on the faculty dashboard immediately. Faculty can adjust pass thresholds and export results to their LMS.
Which headsets is this module optimised for?
Meta Quest 2 / 3 / Pro, ClassVR, Pico, and any WebXR-compatible browser. It also runs in desktop browsers without a headset. We also support the Meta XR SDK, OpenXR, and any 6DOF headset.
See Induction Motor live in a demo.
Thirty minutes, the full module, your curriculum questions answered.



