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Learning Objectives

At the end of this simulation, you will be able to:

Analyze site characteristics and assess environmental conditions through interactive XR environments.
Identify potential hazards and safety risks in a simulated real-world setting.
Understand site preparation requirements based on terrain, weather, and local regulations.
Evaluate existing structures, utilities, and infrastructure for future project integration.
Practice decision-making skills related to risk management, safety protocols, and project planning.

How do virtual labs work?

Enhance students' involvement in science by immersing them in interactive learning scenarios. Create simulations for experiments, provide hands-on training in laboratory techniques, and convey theoretical concepts through captivating visual experiences to improve their overall long-term learning outcomes.

Access web-based simulations that are compatible with laptops, Chromebooks, tablets, and iPads, eliminating the need for software installation.
Incorporate a teacher dashboard for automated grading and monitoring of student progress.
Utilize embedded quizzes to assist students in mastering scientific content.
Comprehensive repository of educational materials, including learning resources, lab reports, videos, theory pages, graphics, and more.

Relevant Course Packages All Course Packages →

Microcontroller and Embedded Systems Programming

The Microcontroller and Embedded Systems module provides virtual environments (e.g., Arduino, Raspberry Pi) where students can design, simulate, and test embedded systems. Through interactive exercises, students learn to interface sensors, actuators, and communication modules, while writing and debugging code to control devices effectively.

Robotic Surgery and Medical Robotics Simulation

Provide immersive training on robotic-assisted surgery and the design of medical robots through XR simulations. Students will master controlling robotic arms for minimally invasive procedures and learn how to program medical robots for precise tasks like suturing, tissue manipulation, and incision creation.

Thermodynamics and Heat Transfer

Provide hands-on experience in understanding thermodynamic processes and heat transfer mechanisms through immersive XR simulations. Virtual labs enable students to simulate processes like conduction, convection, and radiation across various materials and environments. Interactive scenarios allow exploration of thermodynamic cycles, such as the Rankine, Brayton, and Carnot cycles, offering a comprehensive understanding of energy systems. Real-time feedback helps students analyze temperature distribution, energy efficiency, and system optimization, fostering practical insights into thermodynamics and heat transfer in engineering applications.

Wind Tunnel Testing and Aerodynamic Optimization

Gain hands-on experience in wind tunnel testing to study the aerodynamic behavior of aircraft models and optimize designs for improved flight performance. Using virtual wind tunnel environments, students will explore how lift, drag, and flow separation are affected by various aerodynamic factors. With interactive tools, they can adjust test conditions like wind speed, angle of attack, and turbulence levels, while receiving feedback on optimizing wing and fuselage shapes for maximum efficiency.

Chiller System Installation and Maintenance

The Chiller System Installation and Maintenance Simulation trains students on the installation, maintenance, and troubleshooting of chiller systems used in commercial buildings for large-scale cooling applications. Students will practice virtually installing air-cooled and water-cooled chiller systems, connecting them to cooling towers and air handlers. Maintenance tasks include cleaning chiller tubes, monitoring refrigerant levels, and inspecting compressors. Troubleshooting scenarios will focus on issues like reduced cooling capacity, refrigerant leaks, and mechanical failures. Real-time feedback will be provided on system performance, energy consumption, and efficiency optimization.

Propeller and Rotor Blade Maintenance

Explore inspection, repair, and balancing techniques for propellers and rotor blades in both fixed-wing and rotary aircraft. Simulate tasks such as aligning blades, detecting damage, adjusting pitch, and applying aerodynamic principles. Receive feedback on balancing precision, repair quality, and power transmission efficiency.

LMS Integration

imaginX seamlessly integrates with leading LMS (Learning Management Systems), enabling educators to track student performance and allowing students to maintain their work records. It is compatible with popular platforms such as Canvas, Blackboard, Moodle, Google Classroom, Schoology, Sakai, Brightspace/D2L, and can also be used independently of an LMS.