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Let Your Child Find Out Learning Is Fun Too !!!
Boosts Confidence โ Earning certifications helps kids feel proud and capable. Encourages Learning โ Certifications motivate children to explore new subjects. Builds Skills โ They develop valuable academic, creative, or technical abilities. Enhances Resumes โ Early achievements can strengthen future academic applications. Sets Goals โ Certifications teach kids the value of setting and achieving targets.
Robotics combines knowledge from computer science, mechanical engineering, electrical engineering, and mathematics, offering a comprehensive interdisciplinary education. Holistic Approach: Students gain insights into diverse areas, fostering a well-rounded understanding of technology.
Hands-On Experience: Robotics courses often involve building, programming, and operating robots, offering practical application of STEM (Science, Technology, Engineering, and Mathematics) concepts. Problem-Solving Skills: Students develop critical thinking and problem-solving abilities when troubleshooting and debugging robots.
Gain proficiency in programming languages (such as Python, C++, or specialized languages for robotics) to control robots and automate tasks. Hardware Understanding: Learn about sensors, actuators, microcontrollers, and other hardware components used in robotics.
Encourages creativity in designing and developing robotic systems, fostering innovation and out-of-the-box thinking. Project-Based Learning: Engaging in robotics projects allows students to experiment and innovate in a hands-on environment.
Industry Demand: With advancements in automation and AI, robotics skills are in high demand across industries, offering diverse career paths in robotics research, automation, AI, manufacturing, healthcare, and more. Emerging Fields: Opportunities in cutting-edge fields like autonomous vehicles, drones, medical robotics, and human-robot interaction continue to grow.
Accomplishing complex robotics projects enhances students' confidence in tackling technical challenges.
Encourages logical thinking and problem-solving abilities applicable beyond robotics in various aspects of life. Robotics courses equip students with valuable technical skills, foster innovation and creativity, and prepare them for a future where technology plays an increasingly significant role in various industries.
| Sr. No. | Activity |
|---|---|
| 1 | Electronic Circuits & Sensors |
| 2 | Powering Up Electronic Devices |
| 3 | Motor and Sensor |
| 4 | Motor with Gears |
| 5 | Obstacle Detection in Safety and Security a. Car Reverse Parking b. Open Door Alarm |
| 6 | Museum Artifact Theft Alarm |
| 7 | Overweight Alarm in Lift (Elevator) |
| 8 | Sustainability with Technology a. Morning Alarm b. Soil Dry Alarm |
| 9 | Water Level Alarm |
| 10 | Energy Saving Devices a. Energy Saver Lamp b. Automatic Drawer Light |
| 11 | Automatic Car Light |
| 12 | Science and Math Applications in Real Life a. Beep Player |
| 13 | Morse Code With Buzzer |
| 14 | Pendulum |
| 15 | RGB Disc |
| 16 | Persistence of Vision |
| 17 | PWM to Control Intensity |
| 18 | Tilt Sensor using Obstacle Sensor |
| 19 | Light Controlled Machine |
| 20 | Obstacle Detection in Robotic Systems a. Cliff Avoiding Robot |
| 21 | Line Following Robot |
| 22 | Touch Me Not Robot |
| 23 | Smart Street Light |
| 24 | Light Seeking Robot |
| Sr. No. | Activity |
|---|---|
| 1 | Introduction to Microcontroller Programming |
| 2 | Making The First Program - Blink Light |
| 3 | Adding Motion and Sensor |
| 4 | Conditional Statements |
| 5 | Introduction to Variable |
| 6 | Introduction to Loops & Functions |
| 7 | Introduction to Logic Gates |
| 8 | Sustainability With Technology - Energy Saver Lamp |
| 9 | Soil Dry Alarm |
| 10 | Water Level Alarm |
| 11 | Museum Artifact Theft Alarm |
| 12 | Digital Key |
| 13 | Person Counter with Overcrowd Alarm |
| 14 | Automatic Door Alarm |
| 15 | Timer Alarm |
| 16 | Obstacle Detection In Robotic System |
| 17 | Beep Player |
| 18 | Remote Controlled Robot |
| 19 | Preprogrammed Path Follower Robot |
| 20 | Cliff Avoiding Robot |
| 21 | Obstacle Avoiding Robot |
| 22 | Light Seeking Robot |
| 23 | Line Follower Robot |
| 24 | Science and Math - Drawing Bot |
| 25 | Overweight Alarm |
| 26 | Generating Waveforms |
| Sr. No. | Activity |
|---|---|
| 1 | Introduction to App Development |
| 2 | Background Color Change App |
| 3 | Controlling Light using Android App |
| 4 | Digital Doodle App |
| 5 | Piano App |
| 6 | Smart Light App with Light Intensity Indicator |
| 7 | Mole Mash Game App |
| 8 | Smart Water Dispenser App |
| 9 | Smart Shopping Cart App |
| 10 | Car Parking Meter App |
| 11 | Alarm Clock and Timer App |
| 12 | Bank Locker Verification App |
| 13 | Smart Curtain App |
| 14 | Health Monitoring: BMI Calculator App |
| 15 | Remote Controlled Robot |
| 16 | Gesture Controlled Robot |
| 17 | Distance Measurement Device |
| 18 | App Controlled Floor Cleaning Robot |
| 19 | Smart Door Lock App |
| 20 | Weighing Machine App |
| 21 | Dino Run Game |
| 22 | Pick And Place Robot |
| 23 | Capstone Projects: 1. App for Radar System 2. Image Gallery App |
| Sr. No. | Activity |
|---|---|
| 1 | Introduction to Internet of Things |
| 2 | Smart Light |
| 3 | IOT Home Automation |
| 4 | Museum Artifact Theft Alarm |
| 5 | IOT Water level Alarm |
| 6 | Car Parking Vacancy Indicator |
| 7 | Voice Controlled Home Automation |
| 8 | IOT Person Counter Project |
| 9 | Car Theft Identification and Alarm |
| 10 | IOT Intruder Alarm |
| 11 | Digital Notice Board |
| 12 | IOT Smart Home Appliance Switch |
| 13 | Voice Controlled Garage Door |
| 14 | IOT Temperature & Humidity Graph |
| 15 | IOT Noise Level Graph |
| 16 | IOT Based Smart Dustbin |
| 17 | Emergency Alert Device |
| 18 | IOT Machine Monitoring & Alert |
| 19 | IOT Fish Feeder Machine |
| 20 | IOT Plant Watering System |
| 21 | IOT Device Communication |
| 22 | IOT Wheelchair Fall Detection |
| 23 | Light Intensity Map |
| 24 | Capstone Projects: 1. Flood Monitoring System 2. Rain Monitoring System 3. Traffic Control System |
| Sr. No. | Activity |
|---|---|
| CBSE Grade 8, 9, 10 Curriculum | |
| 1 | Introduction to AI |
| 2 | Mask-No-Mask Detection |
| 3 | Image Classification with Physical Computing |
| 4 | AI in Daily Life |
| 5 | Voice Controlled Home Automation |
| 6 | AI for Sustainable Goals |
| 7 | Garbage Segregator using AI |
| 8 | AI Career Opportunities |
| 9 | Ethics of AI |
| 10 | AI Project Cycle |
| 11 | Voice Controlled Robot |
| 12 | Text Recognition App |
| 13 | Neural Networks Intro |
| 14 | Python with Jupyter |
| 15-23 | Python Programming (Input/Output, Variables, Operators, Conditionals, Loops, Functions with Activities) |
| ICSE Grade 8, 9, 10 Curriculum | |
| 1โ7 | Robotics Fundamentals and Robots (System, Motors, Sensors, Path Follower, Avoider, Light Seeker) |
| 8โ11 | AI Concepts and Project Cycle |
| 12โ23 | Python Programming (Same as CBSE with Classification) |
Focusing on Mental Math and Arithmetic using the Abacus Tool
| Sr. No. | Course | Duration | Course Fee (INR) | Certificate |
|---|---|---|---|---|
| 1 | Abacus Level 0 | 120 Hrs | Rs. ******** | |
| 2 | Abacus Level 1 | 120 Hrs | Rs. ******/- | |
| 3 | Abacus Level 2 | 120 Hrs | Rs. ******/- | |
| 4 | Abacus Level 3 | 120 Hrs | Rs. ******/- | |
| 5 | Abacus Level 4 | 120 Hrs | Rs. ******/- | |
| 6 | Abacus Level 5 | 120 Hrs | Rs. ******/- | |
| 7 | Abacus Advance Level 6 | 120 Hrs | Rs. ******/- |
Vedic Mathematics is a system of mathematics that was rediscovered from ancient Indian scriptures known as the Vedas, particularly the Atharva veda. The system is based on 16 sutras (aphorisms or formulas) and 13 sub-sutras (corollaries). These formulas allow for quick, efficient mental calculations and have applications in arithmetic, algebra, geometry, and more.
Faster Computations: Vedic Mathematics uses shortcut methods to solve problems, significantly reducing the time required for calculations. For example, multiplication and division can be done quickly with mental math, making it especially useful for competitive exams and real-life scenarios..
Many of the methods in Vedic Mathematics can be done mentally, which increases calculation speed and accuracy.
The techniques of Vedic Mathematics require active engagement and attention, which help sharpen concentration and improve mental focus. Practicing mental math exercises improves cognitive abilities, making it easier to solve complex problems without external tools like calculators.
Learning and mastering Vedic Math techniques build confidence in problem-solving abilities. As students and professionals master quicker calculation methods, they feel more capable and competent in mathematical tasks.
The mental math techniques encourage the brain to remember number patterns and formulas, improving memory retention. This can be particularly useful in subjects like algebra, arithmetic, and geometry, where remembering certain formulas and shortcuts can help solve problems quickly.
Vedic Mathematics teaches various methods of problem-solving, often with more than one approach to a problem. This flexibility enhances a personโs ability to tackle a variety of problems from different angles, improving overall problem-solving skills. It also encourages logical thinking, allowing students to make sense of complex math problems with simplicity and ease.
Since many problems can be solved mentally, Vedic Mathematics reduces the reliance on calculators. This is especially beneficial in exam settings where the use of calculators may not be allowed or where quick mental calculations are needed.
Vedic Mathematics is not limited to basic arithmetic. It also applies to advanced topics like algebra, geometry, calculus, and trigonometry. Many Vedic methods provide shortcuts for solving equations, factoring polynomials, finding areas, and solving trigonometric problems. This adaptability across subjects means Vedic Mathematics is useful at all academic levels.
By learning the underlying principles and techniques of Vedic Mathematics, students gain a deeper understanding of mathematical concepts rather than merely memorizing steps for solving problems. The focus on logic and patterns helps them appreciate the beauty of math.
Many students experience math anxiety. Vedic Mathematics breaks down complex problems into simpler, easy-to-understand steps, reducing stress and making math more approachable. The methods are intuitive, helping students feel more comfortable with math.
Vedic Math techniques are widely recognized for their speed and accuracy in competitive exams like SAT, GRE, GMAT, UPSC, and banking exams. The shortcuts help students save valuable time during the exam, giving them a competitive edge.
Vedic Mathematics promotes creativity by showing how math can be approached in multiple ways. This encourages students to think outside the box and develop their own problem-solving methods, enhancing both mathematical and creative thinking.
The simplicity of Vedic Math techniques helps build a solid foundation for more advanced mathematical concepts. Once students understand the basic principles, they find it easier to learn higher-level topics, ensuring long-term success in math.
Vedic Mathematics can make math more fun and engaging. The fast and effective methods create a sense of excitement in solving problems, helping students to enjoy the process of learning math. This positive engagement helps sustain interest in the subject.
Vedic Math methods are useful in daily life situations involving quick calculations, such as budgeting, shopping, time management, and even mental estimation of distances, speeds, and quantities.
Vedic Mathematics encourages students to think logically and analytically, sharpening their reasoning and critical thinking skills. This is valuable not only for academic success but also for problem-solving in everyday life and professional scenarios.
For 6th to 8th Standard Students
Scratch programming offers several benefits, especially for young learners and beginners who are just starting to explore the world of coding.
Scratch introduces fundamental programming concepts such as loops, conditionals, variables, and events, making it an excellent foundation for learning more advanced coding languages later.
Scratch allows users to create interactive stories, animations, and games. This promotes creativity as users can design characters (sprites), build environments, and program their own projects, providing an outlet for artistic and storytelling skills.
The drag-and-drop interface of Scratch makes it accessible to beginners, especially children. Thereโs no need to worry about syntax errors, as users can focus on logic and structure without getting bogged down by complex coding rules.
Programming with Scratch encourages logical thinking and problem-solving. Users need to break down problems into smaller tasks, think critically about how to achieve goals, and debug their code to ensure it works correctly.
Scratch has a vibrant online community where users can share their projects, get feedback, and collaborate with others. This helps build communication skills and encourages learning from peers.
Scratch makes learning fun. By creating interactive projects like games, users learn by experimenting and playing with their own creations, which fosters engagement and retention of new concepts.
Creating projects from scratch boosts self-confidence. Users see their ideas come to life, which reinforces their belief in their ability to solve problems and create something meaningful. Scratch also encourages independence as learners can progress at their own pace.
Scratch programming integrates various subjects. For example, users can create projects that explore mathematics (e.g., algorithms, geometry), music (e.g., sound design), and storytelling (e.g., narrative structure). This promotes a multidisciplinary approach to learning.
While Scratch is designed for children, it is suitable for all ages. Adults and educators also use it to introduce programming, and itโs often used in classrooms for interactive learning.
Scratch is free to use, making it accessible to anyone with a computer and an internet connection. This lowers barriers for entry and encourages widespread learning.
Scratch offers an enjoyable and approachable way for learners of all ages to get started with programming, develop essential skills, and foster creativity and collaboration in a supportive environment.