ELECTRONICS 2026

Name: ELECTRONICS 2026
Rating: 5.0 (2 reviews)

Discover how electrical systems, components, and circuits operate

Created byJosuah Mendieta

Last updated 5/2026

English

What you'll learn

The core ideas behind electricity: current, voltage, energy, and power.
The essential building blocks of electronics: resistors, capacitors, diodes, and more.
The key laws that describe how circuits operate, including Ohm’s law and Kirchhoff’s rules.
Design of basic electronic circuits (how to calculate capacitor, resistors, transistor values)

Course content

8 sections • 61 lectures • 6h 16m total length

Course content0:34
Is this course right for me? What will I learn? All of this will be answered in this lesson.
Elements & tools required1:20
A brief list of materials for experiments we'll be doing during this course.
Engineering notation and electric prefixes2:18
In this course we'll learn how to use electrical prefixes and engineering notation.
What is electricity?1:20
A brief concept of what is electricity and how it works on a daily basis.
What is an electric circuit?1:04
Electric circuit: Components description.
Quiz unit 1

Charges and electric current1:33
Brief explanation of electric charge (what's inside an atom? electrons and more)
The Ampere1:53
Explanation of the measurement unit for the electric current.
Voltage1:12
Explanation of the voltage.
Resistance0:50
Explanation of the electric resistance.
Conductors & Insulators0:46
Learn how to differentiate between insulators and conductors.
Resistivity0:52
What is resistivity?
Resistance Formula1:05
Resistance formula based on resistivity.
Resistances (color code, etc)0:49
What is electronic resistance color code? And how to identify the resistance value.
Power0:40
Brief description of power and some formulas to help u calculate it.
Joule effect0:53
The Joule effect and how it affects some elements.
Basic symbols & physical components1:32
A summary of electric/electronic symbols.
Simulation softwares2:05
Some simulation softwares that can be used to draw electronic circuits.
The breadboard5:10
What is the breadboard & how to use it properly.
Quiz unit 2

Ohm's law7:22
Brief description of the Ohm's Law (maybe the most important law in electricity)
Nodes3:42
What is an electrical node?
Branches1:28
What are branches?
Loops10:51
What is a loop? And how to get them.
Resistance connections: Series13:16
What is a series resistance connection and how to identify it.
Resistance connections: Parallel16:09
What is a parallel resistance connection and how to identify it.
Open circuit & Short circuit0:47
What is a open & short circuit and how to identify it.
Equivalent Resistance with mixed connections9:38
KVL & KCL: Kirchoff Voltage & Current Law (THEORY)18:46
Kirchhoff Laws and how to apply them properly.
KVL & KCL exercise 1 - Part 217:49
KVL & KCL exercise part 2.
KVL & KCL exercise 1 - Part 121:20
KVL & KCL exercise part 1.

Parts of the multimeter8:31
Main parts of the multimeter.
How to read electronic symbols in the multimeter.
Practice 3.1: Measure Voltage6:19
Proper way and steps to measure DC voltage.
Practice 3.2: Measure resistance10:47
Proper way and steps to measure resistance.
Practice 3.3: Measure Current9:51
Proper way and steps to measure DC current.
Practice 3.4: Continuity Test7:15
Proper way and steps to make a continuity test.
Practice 3.5: Measuring temperature2:36
A little temperature test.
Quiz unit 3

Switches & push buttons1:14
Switches & Push buttons and how to identify them.
The fuse1:03
Talking about the fuse.
Potentiometer & LDR1:18
What is a potentiometer & LDRs, how they work
Diodes1:04
What is a diode? And different type of diodes.
Inductor1:09
What is an inductor?
Capacitor1:11
What is a capacitor?
Practice 4.1: Testing fuses23:18
Practice to blow fuses and see their behavior under different situations:
- Overload
- Short circuit
Practice 4.2: Turn on a LED using DC voltage14:43
Practice 4.2: How to turn on a LED using a voltage source and add a resistor to limit its current.
Practice 4.3: Experiment with the relay10:23
Understanding the relay (working principle) and a circuit to show it.
Practice 4.4: Experiment with capacitors9:49
Experiment with capacitors and see its effect on a load (LED)
Quiz section 4

The transistor: Introduction2:29
What is a transistor (working principle) and types of transistors (BJT)
Checking transistor datasheet: Regions1:43
Check the transistor regions and how to identify.
Practice 5.1: Identifying transistor status and simple circuit15:24
Circuit using transistor an a LED.
Theory Practice 5.2 Darkness detector (LDR + transistor)22:06
Design of darkness detector using a transistor.
Practice 5.2: Darkness detector (LDR + transistor)10:32
Building of the darkness detector in the previous lesson.
Quiz section 5

What is an integrated circuit?1:00
Integrated circuit: brief description.
Boolean Logic1:36
Boolean logic: brief concept.
Pull-up & Pull-down configurations1:41
What is a pull-down & pull-up configuration?
When to use them and how they are related with the boolean logic.
Truth tables2:02
What is a truth table and how it is related to boolean logic.
Boolean Output Function + properties & simulation17:38
Learn how to calculate the output boolean function & simulation with crocodile clips.
Practice 6.1: Using some IC for Boolean Logic17:31
A brief practice of the previous lesson. And learn how to change between pull-down & pull-up configurations.
Quiz section 6

Requirements

This course serves as a beginner-friendly introduction to the principles behind Electricity and Electronics, so you don’t need any prior background. To follow the explanations smoothly, it helps if you’re comfortable with basic math, since we’ll work through simple equations while examining circuits. A little familiarity with physics can be useful, though it’s completely optional

Description

WHAT'S IN IT FOR YOU?

Understanding electricity and electronics is a powerful skill in today’s world.

Electronic systems show up in nearly everything—phones, computers, appliances, vehicles, and all the everyday items that are steadily becoming “smart.” As more devices integrate circuitry, the need for people who understand how electronics work continues to rise, and the career opportunities are both plentiful and well-paid across the globe.

Creating your own electronic devices is also incredibly fulfilling. Whether you pursue it as a profession or a personal hobby, there’s something uniquely exciting about building a real, tangible object that responds to the world around it. With affordable platforms like Arduino and Raspberry Pi—and the right foundational knowledge—getting started has never been easier.

Unlike many technical fields that change rapidly, the core of electronics remains stable. It’s rooted in physics and the natural laws that do not change. New chips and components appear every year, but the underlying principles stay constant, making the knowledge long-lasting and always relevant.

WHAT MAKES THIS COURSE UNIQUE?

Most online resources focus on plugging parts together or following pre-made designs. They usually skip the deeper “why” behind how things work.

This course takes a different approach: it builds your understanding from the ground up. Every concept is introduced starting from the physics behind it, ensuring that you truly grasp how circuits behave. Once the fundamentals are clear, you’ll apply them to design more advanced and practical electronic systems.

Who this course is for:

Hobbyists and DIY builders interested in getting a clear grasp of what’s happening inside electronic parts
University learners who need to revisit core principles from their electronics courses
Professionals in electrical/electronic engineering who want to reconnect with the foundational ideas they haven’t reviewed in years

ELECTRONICS 2026

What you'll learn

Explore related topics

Course content

INTRODUCTION5 lectures • 7min

BASIC ELECTRONIC CONCEPTS13 lectures • 19min

A LOT OF THEORY11 lectures • 2hr 1min

THE MULTIMETER6 lectures • 45min

BASIC ELECTRONIC COMPONENTS10 lectures • 1hr 5min

THE DIODE AS A RECTIFIER5 lectures • 25min

TRANSISTORS5 lectures • 52min

BOOLEAN LOGIC6 lectures • 41min

Requirements

Description

Who this course is for: