Insight iLOG VideoLab is the latest enhancement of Insight iLOG Studio
Insight iLOG programs for data logging and modelling are unrivalled for their versatility and ease of use.
Now VideoLab adds a comprehensive video analysis system which provides a new dimension for practical experiments in the study of motion.
ZEP Island is a STEM learning program based on a scale-model sustainable community of ‘Zero Emissions People’ (“ZEPs”).
To avoid adverse consequences of climate change each one of us has to strive to get as close to ‘zero emissions’ as possible. This opens up a wealth of learning opportunities.
ZEP Island is about using STEM to design and build a model ‘zero emissions’ environment. The core challenge is to model sustainable scenarios for supporting life, and the aim of the program is to maximise the number of ZEPs you can sustainably support using an A2 (420mm x 594mm) space.
The more STEM and design thinking the students apply, the more water, food, energy and shelter they can provide, and the more ZEPs can live on their island.
Plastic brick-based STEAM Construction Kit.
STEM Innovator Kit enables children to take ownership of their learning and add to their knowledge through hands on experience. The self paced experiential learning kit helps children to work on STEM concepts through constructing 3D models enabling 21st century learning.
Learn about the most influential types of simple machines and compound machines that are used everyday in a variety of ways.
STEM Mekanics Kit helps to build a strong foundation for STEM pathways, thereby making your child future ready!
Our STEM Explorer kit aims to start preparing students for careers and challenges that don’t yet exist.
This kit weaves Computational Thinking approaches with inspiration derived from the “Five Great Lessons of Montessori” and the curriculum for upper Key Stage 1 children using the Playful Learning processes.
Build models to interact in real-world situations.
STEM Mekanics Kit helps to build a strong foundation for STEM learning introducing pulleys, axles and gears.
We have been testing our evolving methodology with over 10 000 young people, 300 teachers and assisted in the creation of 20 school maker spaces. We have received a lot of positive feedback and learned a great deal in the process. It became clear that although education technology is booming, having these modern tools is only half the battle; guidance and inspiration should be provided to the teachers so they can fully utilise them. This is what lead us to make our curricula widely accessible and create the first Maker’s Red Boxes.
We have been testing our evolving methodology with over 10 000 young people, 300 teachers and assisted in the creation of 20 school maker spaces. We have received a lot of positive feedback and learned a great deal in the process. It became clear that although education technology is booming, having these modern tools is only half the battle; guidance and inspiration should be provided to the teachers so they can fully utilise them. This is what lead us to make our curricula widely accessible and create the first Maker’s Red Boxes.
Benefits of maker education-
Teachers no longer have to compete with mobile screens for children's attention.
Children can work independently towards their goals while gaining indispensable skills.
They can create complex personalised objects that really work.
