Shape the Future with AI &VR from School
Code Quest Program by
Smart Data Learning
is an exciting, hands-on tech training program designed for kids in Grades
7-9. This program introduces young learners to the fascinating worlds of
Artificial Intelligence (AI) and Machine Learning (ML), helping them
understand how these technologies shape our future. Participants will also
dive into Virtual Reality (VR) and Augmented Reality (AR), creating
interactive experiences while exploring 2D and 3D modeling to design
their own digital environments. With fun, beginner-friendly Python
training, kids will learn coding skills essential for game development,
animations, and AI projects. It's the perfect program to spark creativity,
critical thinking, and a passion for technology!
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Course Modules & Details?
Module 1: Mathematics and coding are deeply interconnected.
This module helps students
apply Python programming to solve mathematical problems, improving both their
coding and analytical skills. They will explore topics such as data visualization,
geometry, arithmetic operations, and probability through fun, interactive coding
projects.
Objective: Strengthen mathematical thinking through coding. Students will
apply Python concepts to develop math-based projects.
Duration: 6 Classes
Key Concepts:
o Variables and Operators in Mathematical Equations
o Conditional Statements for Decision Making
o Loops for Repetitive Calculations
o Data Handling & Visualization
Projects:
Dividend Verification – Develop a program to check the validity of division
equations.
Data Handling using Python – Create bar graphs & pie charts using Python.
Shopkeeper's Sales Tracker – Simulating profit and loss calculations.
Geometry in Programming – Visualizing shapes and their properties.
Quadrant Plotter – Understanding coordinate systems.
Strange Sphere – Exploring surface area and volume using Python.
Module 2: Artificial Intelligence & Machine Learning
AI and machine learning are shaping the future. This module introduces students to
AI-powered applications such as chatbots, image recognition, and automation. They
will learn how machines "think" by training AI models and working with real-world
datasets, setting the foundation for advanced AI concepts.
Objective: Introduce students to AI and Machine Learning concepts. They
will learn how AI models work by training datasets and analyzing results
Duration: 12 Classes
Key Concepts:
o Variables and Operators in Mathematical Equations
o Conditional Statements for Decision Making
o Loops for Repetitive Calculations
o Data Handling & Visualization
Projects:
Sort the Things Out! – Image classification using AI.
Home Automation System– Creating an AI-powered voice assistant.
Smart Gifting System – Using predictive modeling for recommendations.
AI Digital Quiz – Text-based AI-driven quiz system.
Augmented Reality Filters – Detecting faces & voice recognition.
Mood-Based Playlists – AI-powered song recommendation system.
Voice-Controlled Crane – Implementing AI-driven control.
Smart Chatbots – Creating an interactive chatbot using Python.
Module 3: 3D Modelling & Simulation
3D modeling helps students understand geometrical and
engineering concepts through hands-on learning. They will create
3D objects, simulate real-world physics, and design interactive
models. This module builds spatial intelligence and design thinking
while reinforcing Python coding skills.
· Objective:
· Duration: 12 Classes
· Key Concepts:
Objective: Teach students 3D visualization concepts using Python. They will design 3D models and understand
geometric transformations.
Duration: 12 Classes
Key Concepts:
o Introduction to 3D Modelling
o Coordinate Systems & Transformations
o Prototyping & Engineering Design
o Physics-based Movements (Gravity, Rotation)
o Object Grouping, Duplication, and Rotation
o Getting ready for VR
Projects:
3D Rings & Hearts – Creating symmetrical shapes.
Keychain Designer– Personalized name tags.
3D Coffee Mug – Modeling a real-world object.
Design a House – Creating a complete architectural layout.
Harry Potter's Bookmark – Fan-based themed project.
Hogwarts Express Train Model– Advanced 3D rendering.
Module 4: AR/VR Development
Augmented Reality (AR) and Virtual Reality (VR) are the future of digital
interaction. This module helps students create immersive experiences where
they can explore 3D environments, develop physics-based simulations, and
animate virtual objects. It combines coding, creativity, and problem-solving in
a highly engaging way.
Objective: Introduce Augmented Reality (AR) & Virtual Reality
(VR) using Python-based tools. Students will design, animate, and
code their own 3D virtual environments.
Duration: 12 Classes
Key Concepts:
o Introduction to 3D Space
o Physics-Based Motion & Interactions
o Static & Dynamic Collisions
o Path Movement & Scene Transitions
o Camera Controls & Interactivity in VR
Projects:
Treasure Hunt – Design an interactive VR environment.
Hogwarts Calling– Create a magical AR world.
Find the Diamond – Interactive object search game.
Physics Arena – Implement gravity-based motion.
Space and Its Mysteries – Exploring planets in AR.
Pick Me Please!– AR object selection with motion tracking.
Module 5: Introduction to Python (Block-Based to Text-Based)
Many beginners start with block-based programming, but transitioning to text-based coding
is essential for real-world applications. This module ensures students understand Python
fundamentals, including variables, loops, conditionals, and functions, preparing them for
more advanced programming tasks.
Objective: Transition students from block-based Python coding to text-based
Python programming.
Duration: 12 Classes
Key Concepts:
o Variables & Data Types
o Loops (For & While) and Flow Control
o Conditional Statements & Decision Making
o Functions & Lists
o Code Debugging & Optimization
Projects:
Hello World – First Python program.
Draw Your Imagination– Using logic to create shapes.
Pull the User In – Interactive input-based projects.
Swirl Around – Using variables to manipulate shapes.
Control Your Program – Implementing conditional logic.
Grocery Time– Using lists to build an inventory system.
Login Page – Basic authentication system.
Bridge Activity – Comparing block-based & text-based programming.
Module 6: Python Advanced – Problem-Solving & Real-World Applications
After mastering the basics, students will dive into advanced Python
concepts such as data structures, algorithms, automation, and APIs.
This module challenges them to apply their knowledge in real-world
scenarios, such as building chatbots, solving math puzzles, and
developing interactive Python projects.
Objective: TIntroduce real-world applications using text-based
Python programming. Students will develop more complex
algorithms and learn about data structures.
Duration: 18 Classes
Key Concepts:
o Advanced String Manipulations
o Data Structures (Lists, Tuples, Dictionaries)
o Algorithms & Flow Control
o File Handling & Data Processing
o Introduction to APIs & External Libraries
Projects:
Shopping Chatbot – AI-powered customer support bot.
Swapping Values & Finding Maximum– Basic Algorithm implementation.
Binary Number Game – Learning about binary systems.
Playing with Strings – Text manipulations and pattern recognition.
Number Patterns – Implementing logic-based loops.
Sum of a List– Understanding list operations.
Star Pattern Generator – Using nested loops for design
Hello, Paul! – User interaction using functions
\Advanced Mathematical Algorithms – Applying Python for complex
calculations.
Explore. Learn. Transform.
Contact us to learn more about enrollment, programs, and how we can help you achieve your ambitions. Together, let’s shape a brighter future!
Connect with us for a personal evaluation of your needs.