In this course, students learn to design and 3d print their own creations while exploring animatronics and programming to add motion using sensors.
They also develop AI-powered mobile apps and integrate them with robotics to control their models. The hands-on experience encourages innovative product design that solves real-world problems, fostering creativity and critical thinking.
Activity-Based Learning Include
20+ Activities
Tactile Activities
- Drawing Engineering Graphics
- Scrapbook Creation
- Architecture Modeling
- Set Modelling
- Vehicle Modelling
- Circular Pin Board Creation
Robotics Activities
- Home Automation
3D Modelling Activities
- Primitive 3D Modelling
- Warli Set Modelling
- Deforestation Set Modelling
- Vehicle Modelling
- Architecture Modelling Using External Add-Ons
- Modelling Scattered Settelments
- Modelling Compact
- Product Designing
- Automata
- Pepakura
AI Mobile App Development
- Creating an AI PoseTrack App
- Creating a Mop Bot
Learning Outcomes
- Express their experiences in performing activities/projects.
- Explain about objects and people with proficiency in language and vocabulary.
- Write short paragraphs with organised thoughts.
- Demonstrate fluency and accuracy in speaking.
- Create 3D representations in 2D with an understanding of perspective and orthographic views.
- Recognize vertices, edges, faces and nets in simple 3D forms.
- Measure the area of simple geometric shapes.
- Identify different pairs of angles.
- Demonstrate an understanding of different properties of triangles and congruence.
- Demonstrate an understanding of rotational and reflection symmetry.
- Familiarise with the architectural styles and skills exhibited by different rulers in constructing historic monuments.
- Compare the diversity of life in different environmental settings.
- Elucidate the different types of houses to understand the relationship between natural environment and human habitation.
- Demonstrate an understanding of how flora and fauna are dependent on the climate and landforms.
- Demonstrate an understanding of conservation of natural resources.
- Draw circuit diagrams and devise a simple working project with electric circuits.
- Demonstrate an understanding of reflection of light.
- Familiarise with speed of moving objects and measurement of time.
- Reinforce academic understanding by applying concepts in the solutions they create.
- Explore robotics and AI to design solution-driven models for real-world problems.