General Simulation Description

ELECTRIFICATION

Discover how objects become electrically charged — explore the principles of electrification through friction, contact, and influence in a hands-on VR environment.

Physics

10 minutes

ELECTRIFICATION

About the laboratory

Experience the fascinating phenomenon of electrification through VR physics simulation. VR Lessons will take you on a journey through the three ways of electrification - friction, contact, and influence. Learn about the science behind this phenomenon and witness it come to life in a captivating virtual environment. Start your electrifying journey today!

Experience our VR lessons through real recordings

Choose your curriculum

Cambridge (Science/Physics)

Lower Secondary: Electric field
Upper Secondary: IGCSE (Electrical interaction/movement of charges), O-level (electrification by friction/electrification by influence)
Advanced: AS-level (electrification by influence), Pre-U (Electrical interaction)

International Baccalaureate (Science/Physics)

Middle Years Programme: Electric field
Diploma Programme: Movement of charges

National curriculum in England (Physics)

Key stage 3: Electric field/electrification by friction
Key stage 4: Movement of charges

Indian curriculum CBSE (Science/Physics)

Secondary stage (classes 9-10): Electric field
CBSE Class 12 board exam: Movement of charges

Scuola secondaria in Italia (Scienze/Physics)

Unità 1: Introduzione all’elettrostatica
Unità 2: Conduttori e isolanti
Unità 3: Legge di Gauss

Next-Generation Science Standards (Physical Sciences)

Recommended for MS (Forces and Interactions)

National curriculum of the Netherlands (Physics)

VMBO: Definition of electrization and electric charge. Understanding the difference between positive and negative charges. Basic properties of conductors and insulators. Applications of electrization in everyday life, such as static electricity and electric shocks.
HAVO: Analysis of the laws of electrization, including Coulomb’s law. Understanding the concept of electric fields and their impact on charged particles. Introduction to different types of electric circuits and their properties, such as series and parallel circuits. Applications of electrization in fields such as electronics and electromagnetism.
VWO: Advanced topics in electrization, including the use of Gauss’s law and electric potential. Understanding the relationship between electrization, electric fields, and magnetic fields, including the use of Maxwell’s equations to predict behavior. Analysis of specialized phenomena related to electrization, such as capacitance and inductance. Introduction to the concept of quantum electrodynamics and its applications in quantum mechanics.

Our catalog