Course Highlights
Logical Thinking Development Strengthen problem-solving and critical thinking skills through coding challenges that enhance academic performance across all subjects naturally.
Beginner-Friendly Languages Start with easy visual programming tools like Scratch before progressing to real coding languages designed specifically for young minds.
Creative Project Building Design interactive stories, quizzes, and projects that let your child express creativity while learning valuable technical skills simultaneously.
Step-by-Step Learning Progress from basic concepts to creating functional programs through structured lessons that build confidence and competence gradually always.
What You'll Learn
Coding Logic Understanding
Learn sequencing, loops, and conditional statements for program flow control.
Game Development Basics
Build interactive games with characters, scoring, levels, and sound effects.
Animation Creation Skills
Design animated stories, cartoons, and moving graphics using coding principles.
Problem-Solving Methodology
Break complex problems into smaller steps using computational thinking strategies.
Variables and Data
Understand how to store, change, and use information in programs.
Debugging Techniques
Identify errors, test code, and fix bugs systematically like professionals.
Algorithm Design
Create step-by-step instructions to solve problems efficiently and logically always.
Project Planning
Plan, design, code, and complete programming projects from concept to finish.
Course Content
What is a computer and how does it work?
What is programming? (Making computers follow instructions)
Introduction to AI - What is Artificial Intelligence?
Real-world examples of AI (Siri, Alexa, YouTube recommendations, Netflix suggestions)
Difference between regular programs and AI programs
Setting up the learning platform (Scratch/Code.org account)
What is an algorithm? (Step-by-step instructions)
Algorithms in daily life (recipes, morning routines, game rules)
Breaking big problems into smaller steps (decomposition)
Importance of order and sequence
Introduction to pseudocode (writing instructions in plain language)
How computers follow instructions exactly
Introduction to Scratch/Blockly interface
Understanding the programming workspace (stage, sprites, blocks palette)
Types of blocks: Motion, Looks, Sound, Events
Connecting blocks to create programs
Running and stopping programs
Saving your work
What is a sequence? (Order of operations matters)
Introduction to loops (repeat blocks)
Types of loops: Repeat, Repeat Until, Forever loops
When to use loops (avoiding repetitive code)
Nested sequences (sequences within sequences)
Efficiency in programming
What are conditionals? (If-Then statements)
Making programs interactive and responsive
If-Else blocks (what happens when condition is not met)
Sensing and detecting (keyboard input, mouse clicks, touching colors)
Boolean logic basics (True/False)
Comparison operators (equal to, greater than, less than)
What are variables? (Containers for storing information)
Creating and naming variables
Types of data: Numbers, text (strings), true/false (booleans)
Setting and changing variable values
Displaying variables on screen
Using variables in calculations
Practical uses: Scoring systems, lives/health, player names
How is AI different from regular programming?
What is machine learning? (Learning from examples)
Training data and examples
Pattern recognition in AI
Classification (sorting things into categories)
Introduction to Teachable Machine or similar tool
How AI makes predictions
Real examples: Spam filters, image recognition, voice assistants
Types of AI recognition: Images, sounds, poses
How to collect training data
Training an AI model step-by-step
Testing and improving your AI model
Integrating AI with Scratch (using extensions or ML2Scratch)
Understanding accuracy and errors in AI
Why AI sometimes makes mistakes
Planning an AI project (what problem to solve?)
Combining programming skills (loops, conditionals, variables) with AI
Connecting your AI model to Scratch blocks
Creating user-friendly interfaces
Adding instructions for users
Making your project fun and engaging
What is debugging? (Finding and fixing errors)
Common types of errors: Logic errors, sequence errors, syntax errors
Reading error messages
Testing your program systematically
Using trial and error effectively
Asking for help (how to explain your problem)
Growth mindset: Mistakes help us learn
Professional programmers debug all the time
How to present your project
Explaining your code to others
What you've learned in 11 Modules
Online communities for young coders
Next steps in learning: More advanced concepts
Career paths in programming and AI
How to continue learning at home
Free resources and platforms
Requirements
- Computer/Laptop Access: A working laptop or desktop computer with at least 4GB RAM for running coding software and development tools smoothly.
- Internet Connection: Reliable high-speed internet for attending online classes, accessing coding platforms, and downloading necessary programming tools and resources.
- Reading Comprehension: Ability to read and understand English instructions, as most programming languages and documentation use English terminology and syntax.
Description
Our Programming and Coding Basics course introduces children to the exciting world of computer programming through fun, creative, and age-appropriate methods that make learning feel like play. This engaging program starts with visual programming platforms like Scratch, allowing students to create games, animations, and interactive stories while learning fundamental coding concepts. Children discover essential programming principles including sequencing, loops, conditionals, and variables through hands-on projects that build confidence and competence. The course teaches logical thinking, systematic problem-solving, and breaking complex challenges into manageable steps that enhance analytical abilities across all subjects. As students progress, they transition from block-based coding to text-based languages like Python, gaining real programming skills. These valuable capabilities significantly improve mathematical reasoning, boost creativity, and enhance academic performance naturally. The problem-solving mindset developed through coding prepares children for success in our increasingly digital world. By learning to code early, your child gains competitive advantages, opens doors to high-demand technology careers, and develops computational thinking skills essential for tomorrow's innovation-driven economy. Transform your child from technology consumer to confident creator ready to build the future.
Instructor
C
Chetana Bhat
Future Tech Instructor
4.6 Instructor Rating
2300 Students
2 Courses
Guides students to understand coding concepts using easy examples and hands on activities
Student Reviews
No reviews yet. Be the first to review!
Want to leave a review? Sign in to share your experience with this course.
Course Reviews