Resource types
  • Inquiry Learning Spaces
  • Online Labs
  • Benin
  • Kenya
  • Nigeria
Subject Domains
    • Botany
    • Humans And Animals
    • Life Processes
    • Variation, Inheritance And Evolution
    • Analytical Chemistry
    • Chemical Reactions
    • Inorganic Chemistry
    • Organic Chemistry
    • Physical Chemistry
    Environmental Education
    • Energy
    • Environment
    • Environmental Protection
    Geography And Earth Science
    • Earth Science
    • Algebra And Number Theory
    • Geometry
    • Statistics And Probability
    • Electricity And Magnetism
    • Energy
    • Fields
    • Forces And Motion
    • History Of Science And Technology
    • Light
    • Tools For Science
    • Computer Science And Technology
Age Ranges
  • 7-8
  • 9-10
  • 11-12
  • 13-14
  • 15-16
  • Above 16

On this page, you will find online labs and Inquiry Learning Spaces, which have been selected to fit the curricula of Benin, Kenya, and Nigeria. This page will help you find suitable resources for your classroom activities and easily create Inquiry Learning Spaces for your students.

Need support? Download the Teacher Implementation Manual (English | French) and visit our Support Area.

The objective of the lab is to study the Third Law of Motion using two spring balances. Students can vary the force applied and prove the law. Learning Outcomes The student will understand:
This is a simulation of a simple pendulum. Changing various parameters such as mass, length, damping or gravity, students can explore the effects on the pendulum's motion.
In this lab you can explore the relation between acceleration, velocity and distance covered.
A ray of light coming from the top left strikes the boundary surface of two media. (It is possible to choose the substances in both lists.) The medium which has the bigger index of refraction is painted blue, the other yellow. You can vary the incident ray with pressed mouse button.
This HTML 5 app shows a direct current electrical motor which is reduced to the most important parts for clarity. Instead of an armature with many windings and iron nucleus there is only a single rectangular conductor loop; the axis the loop rotates on is omitted.  
Diffraction of light (i.e. the deviation of the linear propagation) and interference (i.e. the coherent superposition of light waves results in intensity maxima and minima) represent central phenomena of wave optics. Moreover, both phenomena are playing an essential role in techniques (e.g.
There are two similar labs that you can see if you create a space, feel free to choose which one to use. Please note that while the preview shows you only one, the screenshots present both labs.
In the Electrical Circuit Lab students can create their own electrical circuits and do measurements on it. In the circuits the students can use resistors, light bulbs, switches, capacitors and coils. The circuits can be powered by a AC/DC power supply or batteries.