Summer Camp 2026

Our Programs

Structured learning paths designed by engineers and educators. From LEGO building to AI and autonomous robots — the perfect course for ages 6 to 18.

Basic Intermediate Advanced — Course 1 Advanced — Course 2

Summer Camp 2026

Intensive hands-on learning experience for young tech enthusiasts.

Duration

1 Month

Schedule

2 days / week

Batch Size

Maximum 8 students per batch

What's Included

✓Hands-on, project-based learning
✓Flexible & structured sessions
✓Small batches for personalized attention
✓Take-home projects and kits
✓Certificate of completion

Enroll for Summer Camp

Basic6 to 12 years

LEGO Robotics & STEM Learning

From Blocks to Bots — Your First Building Adventure

This beginner-friendly course introduces young learners aged 6-12 to the exciting world of engineering through LEGO. Students explore the basics of simple machines — gears, pulleys, levers, and wheels — while building fun working projects every session. The course focuses on developing logical thinking, creativity, and fine motor skills through structured hands-on play. LEGO Education Simple Machines Kit (396+ pieces) provided during class.

Duration: 8 SessionsSession: 1 hour per sessionBatch: compact sizeFrequency: 2 sessions/week

Get Started

Limited seats — register now to experience the course before enrolling.

Session-by-Session Breakdown

1Week 1

Session 1: Welcome to Building

·Introduction to LEGO, shapes, structural stability
·Strong Tower Challenge — tallest freestanding tower with 50 bricks
·Structural engineering basics & spatial reasoning

2Week 1

Session 2: Wheels & Motion

·How wheels work, axles, friction, smooth rolling
·Rolling Car — four-wheeled vehicle that rolls straight & far
·Understanding motion, friction, alignment precision

3Week 2

Session 3: Gears & Speed

·Gear ratios, teeth meshing, speed vs torque, gear trains
·Gear-Powered Spinner — hand-cranked mechanism with gear combos
·Mechanical advantage & cause-and-effect thinking

4Week 2

Session 4: Levers & Balance

·Fulcrum, lever arms, balance points, force multiplication
·Working Catapult — lever-based launcher with rubber band tension
·Lever mechanics & projectile motion basics

5Week 3

Session 5: Pulleys & Lifting

·Fixed vs movable pulleys, mechanical advantage, belt drives
·Crane or Elevator Model — pulley system lifting a basket
·Load distribution & mechanical advantage

6Week 3

Session 6: Simple Machines Combo

·Combining mechanisms, planning complex builds
·Multi-Function Machine — Rube Goldberg-style using 3+ simple machines
·System thinking, integration & creative engineering

7Week 4

Session 7: Problem Solving Challenge

·Independent problem-solving & design thinking
·Mystery Build Challenge — solve a challenge brief independently
·Troubleshooting, resilience & applying cumulative knowledge

8Week 4

Session 8: Final Project & Demo Day

·Design and build your own machine or vehicle
·2-minute presentation to parents + certificate ceremony
·Presentation skills, confidence & synthesis of all concepts

Skills Gained

Structural EngineeringSpatial ReasoningProblem SolvingCreativityMotor SkillsPhysics Fundamentals

Tools & Technologies

›LEGO Education Simple Machines Set (396+ pieces)
›Building Cards & Instruction Guides
›Supplementary Materials

Learning Outcomes

✓Understand how machines work — gears, pulleys, levers, wheels & axles
✓Develop logical thinking and systematic problem-solving skills
✓Improve fine motor skills and hand-eye coordination
✓Complete 7+ working mechanical projects independently
✓Present their final project with confidence to parents

Program Highlights

✦100% hands-on learning every session
✦LEGO Education Kit (396+ pieces) provided
✦7+ working mechanical projects
✦Final project + parent showcase demo day
✦Builds foundation for electronics & coding courses
✦Certificate of completion

Projects You'll Build

Strong TowerRolling CarGear-Powered SpinnerWorking CatapultCrane/ElevatorMulti-Function MachineFinal Custom Build

Faculty

·Sushil Sahani — IIT Bombay Research Student, EXTC Graduate, 1.5 years in software & robotics
·Rudra Katkar — IIT Bombay Research Student, EXTC Graduate, STEM Educator, 6 months in STEM teaching

Intermediate8 to 12 years | 12 to 16 years

LEGO Robotics with Electronics & Coding

Wires, Sensors, Code — Make Things Come Alive

This intermediate course takes students from LEGO building into real hardware programming with Arduino. Students learn actual text-based programming (C++), electronics fundamentals, and build working robots from scratch. From lighting up an LED in Session 1 to building an autonomous robot in Session 8 — visible progress every week. Complete Arduino + LEGO Technic kit provided during class.

Duration: 8 SessionsSession: 1.5 hours per sessionBatch: Max 8 studentsFrequency: 2 sessions/week

Get Started

Limited seats — register now to experience the course before enrolling.

Session-by-Session Breakdown

1Week 1

Session 1: From LEGO to Electronics

·Introduction to circuits, current, voltage, conductors
·Light Up an LED Circuit — first breadboard circuit
·Component identification & circuit building basics

2Week 1

Session 2: Meet Arduino

·What is a microcontroller, Arduino IDE, uploading code
·Blink LED with Code — real C++ programming
·Programming basics, sequential logic & debugging

3Week 2

Session 3: Inputs — Buttons & Sensors

·Digital inputs, if-else statements, button debouncing
·Button-Controlled LED — interactive circuit with toggle
·Conditional logic & event-driven programming

4Week 2

Session 4: Sensors — Seeing the World

·Ultrasonic, IR, and light sensors, analogRead
·Distance Detector with Alerts — LED proximity indicator + buzzer
·Sensor interfacing & threshold logic

5Week 3

Session 5: Motors & Movement

·DC motors, motor drivers (H-bridge), PWM speed control
·Motorized LEGO Car — Arduino-controlled with speed/direction
·Motor control, PWM & mechanical integration

6Week 3

Session 6: Smart Robot Build

·Combining sensors + motors + code for autonomous behavior
·Line Follower OR Obstacle Avoider Robot — student's choice
·System integration & algorithmic thinking

7Week 4

Session 7: Major Project Design

·Project design thinking, high-level & low-level design
·Group decides and designs their own project with mentor guidance
·Real engineering mindset, debugging & iteration

8Week 4

Session 8: Final Demo & Showcase

·Working robot demonstration to parents & peers
·3-minute technical presentation explaining code, sensors & logic
·Technical communication, confidence & certificates

LEGO Robotics with Electronics & Coding in action

Skills Gained

Arduino Programming (C++)Electronics FundamentalsSensor IntegrationMotor ControlDebuggingSystem Design

Tools & Technologies

›Arduino Uno R3
›Breadboard & Components
›HC-SR04 Ultrasonic Sensor
›IR Sensor
›DC Motors + L293D Driver
›LEGO Technic Chassis

Learning Outcomes

✓Write real code in Arduino C++ — not drag-and-drop blocks
✓Understand basic electronics — circuits, sensors, motors
✓Build a fully autonomous working robot from scratch
✓Debug problems independently with engineering mindset
✓Complete 6+ hands-on electronics & robotics projects

Program Highlights

✦Real text-based programming (C++) — not drag-and-drop
✦Arduino + LEGO Technic kit provided in class
✦6+ hands-on electronics & robotics projects
✦Build a fully autonomous working robot
✦Same Arduino used in engineering colleges
✦Certificate of completion

Projects You'll Build

LED CircuitBlink LEDButton-Controlled LEDDistance DetectorMotorized CarAutonomous Robot

Faculty

·Sushil Sahani — IIT Bombay Research Student, EXTC Graduate, 1.5 years in software & robotics
·Rudra Katkar — IIT Bombay Research Student, EXTC Graduate, STEM Educator, 6 months in STEM teaching

AdvancedCourse 112 to 18 years

AI & Machine Learning

Python Programming & AI Fundamentals

This comprehensive course introduces students to Artificial Intelligence and Machine Learning. Starting from basics of Python programming, students progress through data handling, visualization, core ML concepts, and build real AI projects. By the end, students will understand how AI works and create their own intelligent applications — from quiz games to image classifiers and chatbots.

Duration: 1 MonthSession: 1.5 hours per sessionBatch: compact sizeFrequency: 2 sessions/week

Get Started

Limited seats — register now to experience the course before enrolling.

Session-by-Session Breakdown

1Week 1

Introduction to Computers & Programming

·How computers work, what is programming, why Python
·Variables, data types, input/output, first programs
·Hands-on: Build a calculator program

2Week 1

Programming Fundamentals

·Conditional statements (if/else), loops (for/while)
·Lists, collections, functions, basic debugging
·Hands-on: Build a number guessing game

3Week 2

Introduction to Artificial Intelligence

·What is AI? Types of AI, AI in everyday life
·What is Machine Learning? Supervised vs unsupervised learning
·Interactive demo: Explore AI through games & simulations

4Week 2

Working with Data & Intro to ML

·Understanding data, CSV files, pandas & numpy libraries
·Data visualization with charts & graphs (Matplotlib)
·Hands-on: Analyze a real dataset & prepare for ML

5Week 3

Building Your First ML Model

·Classification, decision trees, training models step-by-step
·Making predictions & evaluating accuracy with scikit-learn
·Hands-on: Build & train a prediction model on real data

6Week 3-4

AI Projects & Future of AI

·Image recognition, Natural Language Processing, chatbots
·AI ethics: bias, fairness & responsible AI development
·Final project: Image classifier, recommendation system, or chatbot

Skills Gained

Python ProgrammingData Analysis & VisualizationMachine LearningAI ConceptsCritical ThinkingAlgorithm Design

Tools & Technologies

›Python 3
›Jupyter Notebook
›Matplotlib
›Scikit-learn
›Pandas & NumPy
›Google Colab

Learning Outcomes

✓Write Python programs from scratch — no prior experience needed
✓Explain what AI & Machine Learning are and how they work
✓Build and train simple machine learning models
✓Work with real data and create visualizations
✓Create AI-powered projects — classifiers, chatbots, predictors

Program Highlights

✦Python programming from absolute scratch
✦Real AI & ML concepts — not just theory
✦Build image classifiers, chatbots & prediction models
✦Taught by IIT Bombay research students
✦All software free & open-source
✦Certificate of completion with skills summary

Projects You'll Build

Calculator ProgramNumber Guessing GameData Analysis ReportPrediction ModelAI Chatbot / Image Classifier

Faculty

·Sushil Sahani — IIT Bombay Research Student, EXTC Graduate, 1.5 years in software & robotics
·Rudra Katkar — IIT Bombay Research Student, EXTC Graduate, STEM Educator, 6 months in STEM teaching

AdvancedCourse 212 to 18 years

Robotics & Electronics

12-Hour Hands-On Course — From Circuits to Autonomous Robots

This intensive 12-hour course takes students on a journey from basic electronics to building autonomous robots. Starting from fundamentals of electricity and circuits, students learn Arduino programming in C++, sensor integration, motor control, and Raspberry Pi. The course is 90% hands-on — students work with real hardware from day one, building circuits, programming microcontrollers, and creating intelligent robotic systems.

Duration: 8 Sessions (12 hours)Session: 2 hours per sessionBatch: compact sizeFrequency: 2 sessions/week

Get Started

Limited seats — register now to experience the course before enrolling.

Session-by-Session Breakdown

12 hours

Session 1: Electronics & Circuits

·Voltage, current, resistance, Ohm's Law, breadboard prototyping
·Components: LEDs, resistors, capacitors, transistors
·Projects: LED circuit, traffic light simulator, switch circuit

22 hours

Session 2: Arduino & Programming

·Arduino board anatomy, IDE setup, setup() & loop()
·Digital output, variables, delays, serial communication
·Projects: Blinking LED, SOS Morse code, LED pattern display

32 hours

Session 3: Sensors & Input Devices

·Digital/analog input, LDR, temperature sensor, ultrasonic & IR
·Conditional statements based on sensor input
·Projects: Automatic night light, temperature monitor, parking sensor

42 hours

Session 4: Motors, Servos & Movement

·DC motors, servo motors, H-bridge motor drivers, PWM
·Robot chassis assembly, movement patterns & functions
·Projects: Variable speed motor, servo arm, 2-wheeled robot

52 hours

Session 5: Autonomous Robots

·Combining sensors + motors for autonomous behavior
·Obstacle avoidance algorithms, line following, PID control basics
·Projects: Obstacle-avoiding robot, line-following robot

62 hours

Session 6: Raspberry Pi & Final Project

·Intro to Raspberry Pi, GPIO pins, Python on Pi, IoT basics
·Final project: Smart home, maze-solving robot, gesture-controlled robot, or pick-and-place arm
·Project presentation, demonstration & certificates

Skills Gained

Electronics & Circuit DesignArduino C/C++Raspberry Pi & PythonSensor IntegrationMotor Control & PWMAutonomous Systems

Tools & Technologies

›Arduino Uno/Nano
›Raspberry Pi
›HC-SR04 Ultrasonic
›IR Sensors
›DC Motors + L298N Driver
›Servo Motors
›Breadboard & Components

Learning Outcomes

✓Understand electricity, circuits & electronic components
✓Program Arduino in C++ and Raspberry Pi in Python
✓Interface sensors, motors, servos & actuators
✓Build autonomous robots that sense and respond to environment
✓Design and complete an independent robotics project

Program Highlights

✦90% hands-on with real hardware from day one
✦Arduino + Raspberry Pi programming
✦Build autonomous obstacle-avoiding robots
✦All components provided — Arduino, sensors, motors
✦Multiple final project options to choose from
✦Certificate of completion with project summary

Projects You'll Build

Traffic LightSOS Morse CodeParking SensorServo ArmLine-Following RobotAutonomous NavigatorFinal Project

Faculty

·Sushil Sahani — IIT Bombay Research Student, EXTC Graduate, 1.5 years in software & robotics
·Rudra Katkar — IIT Bombay Research Student, EXTC Graduate, STEM Educator, 6 months in STEM teaching

Not Sure Which Program is Right?

Let us guide you to the perfect program for your child based on their age and interests.