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Michele, Innovac Makerspace
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Please contact our school manager for detailed course information. They will provide details based on your child’s age and background. You can also leave a message in the chat box, and our course consultant will reach out to you shortly.

Our courses are designed for students aged 7-18 years. We will evaluate your child’s background and competencies during a trial 
lesson. Please contact our school manager or leave a message here, and we will get back to you as soon as possible.

We apologize for any inconvenience and delays in response. Please call +65 8683 3195 for further inquiries, and we will assist you promptly.

Our course consultant will discuss the fees with you after your child’s trial lesson. Please book a trial lesson first to learn more about the course fees.

For detailed information about our courses, please contact our course consultant. We apologize for any confusion and look forward to welcoming you to our school soon.

Questions & Answers

Practical guide for the next generation

Robotics education is important because it combines science, technology, engineering, and math in a practical, engaging way. Through hands-on projects, students learn problem-solving, teamwork, and creativity while applying real-world skills. It helps children understand how technology works, preparing them for future careers in a world shaped by innovation. Beyond technical knowledge, robotics builds resilience, critical thinking, and confidence, as students experiment, make mistakes, and improve their designs. By sparking curiosity and encouraging exploration, robotics education not only nurtures young learners’ interest in STEM but also empowers them to become creators, not just consumers, of technology.

Coding education for kids is important because it teaches them how to think logically, solve problems, and be creative. By learning to code, children understand how technology works and gain the confidence to build their own ideas. Coding strengthens critical thinking, teamwork, and perseverance, as students test, debug, and improve their projects. These skills are valuable not only for future careers in technology but also in everyday life. Early exposure to coding sparks curiosity, empowers kids to become creators of technology, and prepares them to thrive in a digital world where innovation and adaptability are essential.

Learning visual graphic design equips students with spatial awareness, creativity, and problem-solving skills, and applies fundamental mathematical principles such as geometry, algebra, and trigonometry to create accurate and proportionate models, which are crucial in robot design for visualizing, prototyping, and constructing precise robotic components and systems.
Robotics combines mechanical, electrical, electronics, and computer engineering. In its design process, it heavily involves the application of mathematics and science. In the robotics course, students will learn about simple machines, linkages, transmissions, and sensors. Furthermore, students will apply mathematical concepts in robot design, such as gear ratios, load, speed, power and algorithms for mechanical movements.
In today’s digital world, mastering the operation of software and digital systems is essential for success. Coding equips students with critical computational thinking skills that enable logical and structured problem-solving across various fields. Additionally, it empowers them to develop and optimize cutting-edge AI systems. By learning to code, students can innovate, customize algorithms, and seamlessly integrate AI into applications, driving efficiency and leading advancements in technology.
Learning art and design is essential for boosting creativity and innovation, empowering students to develop unique, user-friendly solutions across various fields. It enhances visual communication skills, vital for conveying complex ideas and designs effectively. Furthermore, by integrating aesthetics with technical skills, students ensure that their projects are both functional and visually compelling, resulting in more appealing and effective technological solutions.
Robotics, visual graphic design, coding, and art design play a crucial role in cultivating the maker spirit by providing students with hands-on experiences that foster curiosity and creativity; robotics teaches them to experiment and iterate through building and programming, visual graphic design enhances their spatial awareness and prototyping skills while encouraging innovative thinking, coding promotes logical problem-solving and empowers them to bring their ideas to life through software, and art design nurtures aesthetic appreciation and imaginative expression, culminating in the development of resilient, resourceful learners who are prepared to tackle complex real-world challenges with confidence and ingenuity.