Do you want to learn more about electronics and how it works? If yes, the Awesome Electronics Course – Electronics from Soup to Nuts – is an excellent choice. This course will introduce you to everything you should know about electronics, starting from the basics to more complex terms and concepts.
The creator of the Electronics Soup to Nuts course is Albert Spinosa. If you aren’t familiar with him, Spinosa has been an electronics expert since the 1980s.
He’s been in the business of electricity and electronics for 40 years and is still going strong. He helped develop some of the first video games in the 1980s; he’s been a part of various R&D divisions and has worked on robotics. In addition, Al is a proficient electronics expert.
On that note, Albert Spinosa is also regarded as a fantastic teacher. He’s been teaching newbies about electronics for over 15 years.
The link above will take you to Udemy.com, where the videos are hosted.
You’ll receive lifetime access to the whole course, which includes any and all videos that may be added in the future.
Click above to view the complete course listing and watch sample videos.
Here, you will learn how to add, subtract, multiply, and divide negative numbers.
Everything you need to know about fractions and how to work with them is covered in this section.
This section covers powers and roots of positive exponents, negative numbers, and numbers with exponents.
This section discusses what is meant by the power of 10 and how to work with it.
What are logarithms, antilogs, and natural logs? You’ll find the answers here.
In this section, you will learn about the metric system, different prefixes, units, and conversions.
Everything algebra-related is found in this section, including literal numbers, terms and factors, polynomials, different algebraic expressions, etc.
This section is dedicated to different methods of solving equations.
Here, you’ll learn numerous ways of solving simultaneous linear equations.
The last section dedicated to math for electronics introduces you to trigonometry and its functions.
This section explains what series circuits are and discusses their properties.
This section defines parallel circuits and explains their characteristics.
In this section, you will learn more about circuits that combine both series and parallel connections.
What are resistors? How do they work, and what are the different types? What is the resistor color code? You’ll find the answers to these questions and much more in this section.
This section explains the theory behind Kirchhoff’s laws.
This section discusses different network theorems important for electronics.
You will learn basic terms for understanding capacitors and voltage, calculating charge, etc.
You’ll learn what capacitive reactance is and how to calculate it.
Get to know what RC time constants are and their properties.
You will find out what’s behind AC voltage principles, RMS, peak voltage, etc. Plus, how to find the period and frequency of sinusoidal functions.
This section deals with the physical characteristics of inductors and defines air and iron core inductors. Moreover, you will find out more about inductive reactance and inductive circuits and get introduced to different formulas.
Here you will get familiar with different circuits in both series and parallel configurations.
This section deals with series and parallel resonance circuits.
Here, RLC filters –are explained and their characteristics and uses.
You get introduced to semiconductors, learn about the differences between conductors and semiconductors, and other terms related to semiconductor devices.
In the introductory part, this course defines diodes, discusses their curves and characteristics, and explains diode packages. Then, you will move on to the schematic symbol of a diode, cathode and anode placement, and testing a diode. This course also discusses wave rectification, peak voltage, and average DC voltage of half and full-wave rectifiers.
This section defines transistors, introduces the main types, and discusses their elements. You will learn about symbols, go over testing transistors, introduced to alpha and beta properties, define common collector circuits, etc.
First, this section discusses the necessary resources. Then, it goes on and deals with multi-meter functions, measuring voltage and resistance, reading analog and digital meters, measuring DC current, and reading resistor color codes.
The final section, you get to learn the basics and principles of transformers. Moreover, you learn about the factors that affect their application and properties. You will also find out how to measure AC current.