General Simulation Description

LAWS OF REFLECTION AND REFRACTION

Explore how light behaves at boundaries — investigate the laws of reflection and refraction, observe how light changes direction, and understand the principles behind mirrors, lenses, and optical illusions in immersive VR.

Physics

10 minutes

LAWS OF REFLECTION AND REFRACTION

About the laboratory

Experience the fascinating world of physics with VR physics simulation on the laws of reflection and refraction. VR lessons explore the relationship between the angle of incidence and the angle of refraction, as well as the angle of incidence and the angle of reflection. This engaging and informative experience is perfect for students and physics enthusiasts alike. Get hands-on experience with the laws of reflection and refraction in a safe and immersive VR physics simulation. Start exploring today!

Experience our VR lessons through real recordings

Cambridge (Science/Physics)

Lower Secondary: Reflection of light
Upper Secondary: IGCSE (Reflection of light), O-level (Refraction of light)
Advanced: AS-level (Reflection of light), Pre-U (Refraction of light/Snell’s law)

International Baccalaureate (Science/Physics)

Middle Years Programme: Reflection of light
Diploma Programme: Refraction of light/Snell’s law

National curriculum in England (Physics)

Key stage 3: Reflection of light
Key stage 4: Refraction of light/Snell’s law

Indian curriculum CBSE (Science/Physics)

Secondary stage (classes 9-10): Reflection of light
CBSE Class 12 board exam: Refraction of light/Snell’s law

Scuola secondaria in Italia (Scienze/Physics)

Unità 1: Introduzione all’ottica
Unità 2: Leggi della riflessione
Unità 3: Leggi della rifrazione

National curriculum of the Netherlands (Physics)

VMBO: Definition of reflection and refraction. Understanding the difference between specular and diffuse reflection. Basic properties of angles of incidence and reflection. Applications of reflection and refraction in everyday life, such as mirrors and lenses.
HAVO: Analysis of the laws of reflection and refraction, including Snell’s law. Understanding the concept of index of refraction and its impact on the direction of light rays. Introduction to different types of lenses and their properties, such as converging and diverging lenses. Applications of reflection and refraction in fields such as optics and photography.
VWO: Advanced topics in reflection and refraction, including the use of total internal reflection and critical angles. Understanding the relationship between reflection, refraction, and wave properties, including the use of wave equations to predict behavior. Analysis of specialized phenomena related to reflection and refraction, such as polarization and dispersion. Introduction to quantum optics and its applications in quantum mechanics.

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