Python and Real World AI
Python Block Coding simplifies the art of coding for young minds, where with the help of the visual blocks students can
experiment and create their own Graphics, Animation and Python Codes.
This Block Coding Course from Tinker Coders helps your kids elevate vital 21st-century skills like Logical thinking, Computational thinking, Sequencing and many more. This will not help students to pick up advanced coding courses in future but also will help to think critically and find solutions to problems. There are no prerequisites to joining this course. Students will be taught using our in-house build Platform AI Connect.
Students will learn to apply logics, understand phonics and the basics of coding structures. They will be working on live projects and will be provided access to self-learning modules for practice and self-exploration. After completion of this course, students can pick up next level courses like Mobile App Development, Game Development, STEAM & Robotics, Artificial Intelligence and Python.
All of us, while watching Sci-fi movies, must have wonder if some of the gadgets that they use are actually possible to make like the one in the Spider-man movies where Peter Parker just presses the button of his keyboard and *THUD* the door is locked. what if, i told you that these kinds of things are actually possible to make with the help of Arduino.
Today, electronic is becoming much more friendly hobby for many people around the world and it is all because of Arduino. A platform that would allow us to easily combine hardware and software and do things that were unthinkable before. It is very easy to learn and with the combination of our step by step program, the learning will be much more fun.
Join the world’s most active electronics community with us!
The sole objective of this course is to ease you all with Arduino. All the programs and projects that we are going to develop are using C language.
Learning outcome :
After the completion of this course you all will be familiar with:
- Arduino as IDE, programming language, and platform
- Interfacing multiple sensors with Arduino board.
- Concept of Digital and Analog pins.
- Skills to design various smart system applications, LED and Buzzers.
In order to test an electronic circuit design or to build a prototype of a desired design, prototype breadboards are very useful because they allow the user to set up a temporary circuit that does not require any printed circuit boards or soldering of any components. Components can easily be reconfigured or rearranged until the circuit becomes what is desired.
These are some of the advantages and benefits of protoboards:
- They require no soldering or permanent connection of any components.
- They can be rearranged or reconfigured quickly and easily.
- They allow easy access to all components in the design, for testing.
- Test equipment (multimeters, oscilloscopes, signal generators) can easily be attached to the circuit for initial testing and verification of circuit characteristics.
- Circuits can be disassembled in a very short time.
This course covers all of the details necessary for the user to understand the mechanics of protoboards, there use, how to set up power and ground and how start with a schematic and the indicated electronic components (resistors, capacitors, transistors, etc.) and properly recreate that exact circuit on a protoboard.
The primary teaching tools for this course is an instructor led PowerPoint presentation that uses diagrams, photos and short instructional videos, so that the student can follow along with the instructor to develop the knowledge and skills required to properly and effectively use protoboards in the design and testing of electronic designs and projects.
Who this course is for:
- This course is best suited for electronic students or hobbyists that wish to build prototypes of electronic circuits and observe or record the characteristics of the circuit.
- These are the most common scenarios for protoboard use:
- 1. Assemble and test a circuit to make sure it works properly.
- 2. Students use protoboards to assemble a temporary electronic circuit that can be demonstrated to the instructor as proof that they can design and/or build an operating circuit, such as an amplifier, a transmitter, or receiver.
- Protoboards are often used to mount small subcircuits that are needed to enhance the abilities of a larger electronic or robotics project.
The real magic in 3D printing happens when you are able to create your own designs. We will learn how to use TinkerCad to design different Models and functional products that can be 3D printed. Each lesson will build on the prior to introduce design concepts. TinkerCad is free for students and hobbyists and is a very powerful designing tool. By the end of the course you will have the skills and confidence to begin creating your own designs and start turning your ideas into physical objects.