FAQ's
FAQ's on Tech Tinkerers Program
The "Tech Tinkerer Program" represents a significant advancement in the educational approach to technology & computing in schools. Previously, the ICSE schools operated computer labs that primarily focused on basic information & Communication technology (ICT). These labs provide fundamental knowledge & skills in using computers & understanding basic digital tools & software.
With the introduction of the "Tech Tinkerer Program", there has been a substantial upgrade in the scope & capability of computer labs. They have been transformed into AI & Robotics Labs, indicating a shift towards more advanced & contemporary areas of technology. This upgrade includes not only a complete coverage of traditional ICT subjects but also incorporate extensive training & education in Coding, Artificial Intelligence (AI) & Robotics.
This means that students are now exposed to a wider range of technological skills & knowledge. They learn programming languages & coding techniques, which are essential for creating software, apps & websites. The AI component of the program introduces them to the principles of artificial intelligence, machine learning, & data analytics, providing them with insights into how intelligent systems are designed & function. Robotics education brings a hands-on approach to learning where students can apply their coding & AI knowledge to build & program robots, understanding the mechanics, electronics & software integration necessary for robotics.
Overall, the "Tech Tinkerer Program" represents a modern & forward-thinking approach to technology education in schools, preparing students for a future where digital literacy, programming skills, & an understanding of AI & Robotics will be increasingly important.
This program is meticulously structured for students across a wide range , specifically targeting those in Class 1 through Class 8. It is crafted to suit learning capabilities & educational needs of each age-group, gradually building complexity & depth as students progress through their school years.
The program covers a diverse range of technological & computer science concepts. These include the basics of coding & programming languages, the fundamentals & applications of artificial intelligence, the principles of physical computing, the operation & understanding of Robotics, general computer literacy , & introduction to windows 10 & various Microsoft office tools. This wide range of topics ensures a well-rounded exposure to essential technology concepts.
The program emphasizes practical learning, with a significant no of lab activities. For students in Class 1 & 2, there are 18 lab activities. This no increases to 25 for students from Class 3 to Class 8. These activities are designed to reinforce theoretical knowledge with hands-on experience, encouraging students to apply what they have learned in a practical & engaging enviornement.
The program is comprehensive , with a total of 36 sessions for Class 1 & Class 2 students & 50 sessions for those in Class 3 to Class 8. Each session is carefully planned, splitting equally between classroom learning & lab activities to ensure a balanced educational experience.
Teachers are equipped with extensive resources, including a detailed yearlong session-wise session plan, which guides them on how to effectively execute the program. Additionally, lecture slides are provided for every classroom learning & lab activity session, ensuring that teachers have the necessary tools & information to deliver the curriculum effectively.
Yes, the program includes a capstone project, offering students an opportunity to work on open-ended projects. These projects are submitted in the Codeavour International Competition, providing a platform for students to showcase their creativity, problem solving skills & technological expertise.
PictoBlox credits are a unique feature of the program, acting as a currency within the PictoBlox software used for AI modules. Each student enrolled in the program receives 3000 PictoBlox credits, which can be used to access various features & tools within the software, enhancing their learning experience.
Upon completing specific lab activities, students can earn digital certificates accredited by esteemed organisations like STEMpedia, STEM.org, & ARTPARK. These certifications recognise the students achievements & mastery of the skills learned throughout the program.
Tech Tinkerer is heavily focused on practical, experimental learning. It achieves this through an extensive array of lab activities that encourage students to apply theoretical concepts in real-world scenarios. This practical approach is crucial for deepening understanding & fostering a hand-on experience in technology & computer science.
Yes, the program offers access to the Codeavour competition, a significant platform for students to apply & test their learning in a competitive & stimulating environment. This exposure not only enhances their learning experience but also fosters a spirit of innovation & competitiveness.
The Tech Tinkerer Program provides robust support for students & teachers. Teachers receive detailed lesson plans & educations resources, while students are provided with engaging & interactive learning materials, access to technology tools, & opportunities to participate in competitions.
PictoBlox plays a pivotal role in demystifying, Artificial Intelligence (AI) for students, serving as an accessible & engaging platform. It stands out for its user-friendly interface, making python programming & AI Concepts approachable for learners of various ages. Here's how pictoBlox enhances practical learning:
- Intutive Learning Approach: PictoBlox simplifies the complexities of AI. It introduces students to python, a language at the forefront of AI development, in an easy to understand manner. This approach helps bridge the gap between abstract AI concepts & their real world applications.
- Interactive AI activities: The platform offers a range of interactive activities, from image classification & object detection to natural language processing. These activities not only engage students but also provide hands-on experience with the practical aspects of AI, enhancing their understanding & retention.
- Accessible AI concepts: By breaking down AI into manageable components, PictoBlox makes learning AI accessible to a younger audience. It allows students to grasp fundaments AI principles & apply them in creative ways, fostering a n early interest in this advances field.
- Enjoyable Learning Experience: PictoBlox turns learning into a fun & interactive experience. Its engaging activities captivate students attention, making the learning process enjoyable & less daunting, especially for complex topics like AI.
Quarky is a robotic tool that provides an invaluable hands-on experience in the world of robotics. It's an excellent educations resource, offering practical insights into robotics. The key aspects of Quarky in enhancing practical learning includes:
- Exploration of Robotic Movements: Quarky allows students to delve into the mechanics of robotic movements. by programming & observing Quarky in action, students get a first-hand understanding of how robots move & operate, translating theoretical knowledge into practical skills.
- Sensor Usage & Applications: Quarky is equipped with various sensors, giving students the opportunity to learn about sensor technology & its applications in robotics. This hand-on experience is crucial in understanding how robots interact with their environment.
- Control Systems Learning: Through Quarky students explore the different control systems used in robotics. They learn how to program & control a robot, gaining insights into the critical aspects of robotics navigation & manipulation.
- Practical Understanding of Robotics: By working with Quakry, students move beyond the theoretical aspects of robotics. They engage in practical activities, from building & programming to testing their robotic creations, which solidifies their understanding & sparks their interest in the field.