General Simulation Description

COULOMB’S LAW

Visualize the invisible forces between electric charges — explore Coulomb’s Law in action and understand how charge and distance affect electrostatic interactions through dynamic VR experiments.

Physics

10 minutes

COULOMB'S LAW

About the laboratory

Experience the fascinating world of VR physics with simulation, exploring the interaction of two charged symmetric bodies through Coulomb's Law. This simulation allows students to investigate the principles of electrostatics and the relationship between charges, distance, and force. With the use of virtual laboratory equipment, students can explore this topic in a whole new way. Discover the wonders of Coulomb's Law through innovative VR physics simulation.

Experience our VR lessons through real recordings

Cambridge (Science/Physics)

Lower Secondary: Electric field
Upper Secondary: IGCSE (Electrical interaction/Interaction of charges), O-level (Field strength)
Advanced: AS-level (Field strength), Pre-U (Interaction of charges)

International Baccalaureate (Science/Physics)

Middle Years Programme: Electric field
Diploma Programme: Field strength

National curriculum in England (Physics)

Key stage 3: Electric field/Field strength
Key stage 4: Movement of charges

Indian curriculum CBSE (Science/Physics)

Secondary stage (classes 9-10): Electric field
CBSE Class 12 board exam: Field strength

Scuola secondaria in Italia (Scienze/Physics)

Unità 1: Introduzione alla legge di Coulomb
Unità 2: Applicazioni della legge di Coulomb
Unità 3: Esempi di applicazione della legge di Coulomb

Next-Generation Science Standards (Physical Sciences)

Recommended for HS (Forces and Interactions)

National curriculum of the Netherlands (Physics)

VMBO: Definition of Coulomb’s law. Understanding the relationship between electric charges and the force between them. Basic calculations using Coulomb’s law. Applications of Coulomb’s law in everyday life, such as the behavior of static electricity and electric shocks.
HAVO: Analysis of the mathematical formula for Coulomb’s law and its variables. Understanding the concept of electric fields and their impact on charged particles, including the use of electric field lines. Introduction to the concept of electric potential energy and its relationship to Coulomb’s law. Applications of Coulomb’s law in fields such as electronics, electromagnetism, and electrostatics.
VWO: Advanced topics in Coulomb’s law, including the use of vector calculus and Gauss’s law. Understanding the relationship between Coulomb’s law and other fundamental laws in physics, such as Newton’s laws of motion and Maxwell’s equations. Analysis of specialized phenomena related to Coulomb’s law, such as electric dipole moments and electric polarization. Introduction to the concept of quantum electrodynamics and its applications in quantum mechanics, including the role of Coulomb’s law in describing the behavior of charged particles.

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