High School Physics, Chemistry & Biology VR Learning Device

An advanced VR learning platform for high school STEM education, supporting deep conceptual understanding, virtual laboratory exploration, and immersive learning in physics, chemistry, and biology.

Compatible hardware:
PICO Neo3 EnterprisePICO 4 Ultra Enterprise

What VR Changes in Physics, Chemistry & Biology Learning

VR makes science visible, accessible, hands-on, and relevant for every young learner.

  • Visualize the Invisible

    Bring abstract concepts and microscopic phenomena to life through clear, intuitive visualization.

  • Explore the Impossible

    Enable immersive access to extreme and physically out-of-reach environments.

  • Practice Safely

    Provide a completely risk-free setting for students to conduct hazardous experiments and learn from mistakes.

  • Connect with STEM

    Seamlessly bridge interactive virtual practice with core scientific theories to deepen real understanding.

High School Physics, Chemistry & Biology VR Learning Device — Three Themes

Digital curriculum spanning physics, chemistry, and biology for senior secondary schools.

Physics

Providing a highly accurate, interactive physics engine where students can conduct classical experiments without the limitations of physical lab equipment.

Verifying the Magnetic Field Direction of a Circular Current

Explore the spatial direction of the magnetic field generated by a circular current in an immersive environment.

Key Advantage: Transforms abstract electromagnetic concepts into an intuitive experience by vividly visualizing the invisible, three-dimensional magnetic field lines surrounding the wire.

Chemistry

Offering a fully stocked, perfectly safe environment for students to explore chemical reactions and laboratory techniques.

Face-Centered Cubic (FCC) Close-Packing (Copper type)

Crystal and unit cell models with interactive calculators for coordination number, atom count, packing efficiency, voids, and density.

Key Advantage: Simplifies intricate lattice structures and transforms abstract formulas into tangible, process-oriented workflows to lower learning barriers.

Biology

Brings life sciences into the classroom by simulating both microscopic observations and macro-biological dissections.

Chloroplast

An inside look at a plant cell's "power factory," visualizing thylakoids and the molecular flow of photosynthesis.

Key Advantage: Turns complex biochemical pathways into a dynamic visual factory, helping students grasp how light energy is converted into chemical energy to sustain life on Earth.

Redefining Physics, Chemistry & Biology Education

Focus on Student Empowerment & Pedagogy: Active, Immersive Comprehension

Focus on Student Empowerment & Pedagogy: Active, Immersive Comprehension

Step into the Virtual Physics Lab: The Magnetic Field of a Solenoid

In this immersive comprehensive physics lesson, students step into a virtual laboratory to conduct the "What is the Magnetic Field of a Solenoid Like?" experiment, where they interactively build circuits, manipulate virtual compasses, and vividly visualize the invisible 3D magnetic field lines, transforming abstract electromagnetic concepts into a captivating, hands-on discovery.

STEM Synergy: Integrating Micro-Science, VR Tech, Molecular Engineering, and Crystal Math

STEM Synergy: Integrating Micro-Science, VR Tech, Molecular Engineering, and Crystal Math

Shaping Future Digital Classrooms with VR Molecular Architecture

By integrating STEM—the science of microscopic principles, technology of immersive VR, engineering of molecular building, and mathematics of crystal geometry—this course lowers cognitive barriers. It fosters high schoolers' core chemistry competencies in macroscopic recognition and microscopic analysis and evidence-based reasoning and model cognition, unlocking a new era of digital education.