interfacial Science and Surface Engineering Lab
iSSELab
KRÜSS Surface Science Hub
GLIMPS OF VR LABS
Explore, Experiment, Excel: Unlock the Future with Virtual Labs
THE DENSITY LAB
Experience the concept of density through cutting-edge virtual reality technology, which enables users to engage with a virtual environment for a comprehensive understanding of this fundamental principle. By manipulating objects with varying sizes and masses, users can visually observe the impact of density on buoyancy and weight. This interactive learning approach not only enhances educational experiences but also renders complex scientific principles more accessible and engaging for individuals of all ages. Explore the intricacies of density through the innovative framework of virtual reality.
Minor Loss
Explore a virtual piping system and discover the influence of valves, bends, and fittings on fluid flow. In this engaging VR simulation, users can witness and quantify the effects of minor losses due to sudden expansions, contractions, elbows, and other pipeline obstructions. Through real-time data visualization, learners can test various configurations to understand how these minor losses affect the overall pressure loss within the system.
Major Loss
Prepare to engage with a virtual fluid dynamics lab tailored for an in-depth exploration of major loss in fluid flow. Adjust key parameters such as pipe, diameter, and flow velocity to visualize pressure changes and comprehend the effects of friction on fluid movement. This interactive experience offers a comprehensive approach understanding complex engineering principles, making fluid mechanics more accessible and for learners. Embrace the opportunity to enhance your knowledge in this essential field study.
Piping System
Explore a virtual piping system and discover the influence of valves, bends, and fittings on fluid flow. In this engaging VR simulation, users can witness and quantify the effects of minor losses due to sudden expansions, contractions, elbows, and other pipeline obstructions. Through real-time data visualization, learners can test various configurations to understand how these minor losses affect the overall pressure loss within the system.