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Electrical Circuits Laws and Methods
By Studyhub UK
(3)- 30 Day Money Back Guarantee
- Completion Certificate
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Highlights
On-Demand course
10 hours 19 minutes
All levels
Description
The 'Electrical Circuits Laws and Methods' course is designed to provide a comprehensive understanding of electric circuits, laws, and analytical methods. It covers fundamental concepts, basic laws, methods of analysis, circuit theorems, operational amplifiers, and capacitors and inductors. Students will learn essential principles to analyze and design electrical circuits effectively.
Learning Outcomes:
Understand the basic concepts of electric circuits, including electric charge, current, voltage, power, and energy.
Apply Ohm's Law and other basic laws to analyze resistive circuits and determine currents and voltages.
Use nodal and mesh analysis methods to analyze and solve complex electrical circuits with various sources.
Apply circuit theorems such as the Superposition Theorem, Thevenin's Theorem, and Norton's Theorem to simplify circuit analysis.
Comprehend the properties and applications of operational amplifiers in various amplifier configurations.
Analyze capacitors and inductors in DC circuits, calculate their stored energy, and understand their equivalent capacitance and inductance in series and parallel configurations.
Why buy this Electrical Circuits Laws and Methods?
Unlimited access to the course for a lifetime.
Opportunity to earn a certificate accredited by the CPD Quality Standards and CIQ after completing this course.
Structured lesson planning in line with industry standards.
Immerse yourself in innovative and captivating course materials and activities.
Assessments designed to evaluate advanced cognitive abilities and skill proficiency.
Flexibility to complete the Course at your own pace, on your own schedule.
Receive full tutor support throughout the week, from Monday to Friday, to enhance your learning experience.
Unlock career resources for CV improvement, interview readiness, and job success.
Certification
After studying the course materials of the Electrical Circuits Laws and Methods there will be a written assignment test which you can take either during or at the end of the course. After successfully passing the test you will be able to claim the pdf certificate for £5.99. Original Hard Copy certificates need to be ordered at an additional cost of £9.60.
Who is this course for?
The Electrical Circuits Laws and Methods course is designed for undergraduate and graduate electrical engineering students as a foundational study of circuit theory.
It is suitable for electronics enthusiasts eager to grasp the functioning and design of electrical circuits for various applications.
Engineering technicians and technologists working in fields like telecommunications and manufacturing can benefit from this course to better understand and troubleshoot electrical circuits in practical settings.
Electrical technicians and electricians can enhance their problem-solving abilities and theoretical knowledge of electrical circuits by taking this course.
Hobbyists and DIY enthusiasts interested in electronics projects will find value in learning circuit design and troubleshooting through this course.
Professionals in engineering and related fields can use this course for continuing education to refresh their knowledge and stay up-to-date with advancements in electrical circuit theory and methods.
Prerequisites
This Electrical Circuits Laws and Methods does not require you to have any prior qualifications or experience. You can just enrol and start learning.This Electrical Circuits Laws and Methods was made by professionals and it is compatible with all PC's, Mac's, tablets and smartphones. You will be able to access the course from anywhere at any time as long as you have a good enough internet connection.
Career path
Electrical Engineer: £28,000 - £70,000 per year
Electronics Engineer: £30,000 - £75,000 per year
Electrician: £24,000 - £45,000 per year
Power Systems Engineer: £32,000 - £80,000 per year
Telecommunications Engineer: £28,000 - £70,000 per year
Automation and Control Systems Engineer: £35,000 - £80,000 per year
Course Curriculum
Unit 1- Basic Concepts | |||
Module 1- What Is an Electric Circuit | 00:02:00 | ||
Module 2-System of Units | 00:07:00 | ||
Module 3- What Is an Electric Charge | 00:05:00 | ||
Module 4- What Is an Electric Current | 00:08:00 | ||
Module 5-Example 1 | 00:01:00 | ||
Module 6- Example 2 | 00:02:00 | ||
Module 7- Example 3 | 00:02:00 | ||
Module 8- What Is Voltage | 00:07:00 | ||
Module 9- What Is Power | 00:06:00 | ||
Module 10- What Is Energy | 00:04:00 | ||
Module 11- Example 4 | 00:03:00 | ||
Module 12-Example 5 | 00:03:00 | ||
Module 13- Dependent and Independent Sources | 00:05:00 | ||
Module 14- Example 6 Part 1 | 00:04:00 | ||
Module 15- Example 6 Part 2 | 00:01:00 | ||
Module 16- Application 1 Cathode Ray Tube | 00:04:00 | ||
Module 17-Example 10 | 00:03:00 | ||
Module 18- Application 2 Electricity Bills | 00:02:00 | ||
Module 19- Example 8 | 00:03:00 | ||
Unit 2- Basic Laws | |||
Module 1- Introduction to Basic Laws | 00:01:00 | ||
Module 2- Definition of Resistance | 00:06:00 | ||
Module 3- Ohm's Law | 00:02:00 | ||
Module 4- Types of Resistances | 00:06:00 | ||
Module 5- Open and Short Circuit | 00:05:00 | ||
Module 6- Definition of Conductance | 00:04:00 | ||
Module 7-Example 1 | 00:01:00 | ||
Module 8- Example 2 | 00:03:00 | ||
Module 9- Example 3 | 00:03:00 | ||
Module 10- Branch, Node and Loops | 00:07:00 | ||
Module 11- Series and Parallel Connection | 00:04:00 | ||
Module 12- KCL | 00:04:00 | ||
Module 13- KVL | 00:03:00 | ||
Module 14- Example 4 | 00:05:00 | ||
Module 15- Example 5 | 00:02:00 | ||
Module 16- Example 6 | 00:06:00 | ||
Module 17- Series Resistors and Voltage Division | 00:07:00 | ||
Module 18-Parallel Resistors and Current Division | 00:12:00 | ||
Module 19- Analogy between Resistance and Conductance | 00:07:00 | ||
Module 20-Example 7 | 00:03:00 | ||
Module 21-Example 8 | 00:04:00 | ||
Module 22- Introduction to Delta-Wye Connection | 00:06:00 | ||
Module 23-Delta to Wye Transformation | 00:05:00 | ||
Module 24- Wye to Delta Transformation | 00:07:00 | ||
Module 25-Example 9 | 00:03:00 | ||
Module 26- Example 10 | 00:15:00 | ||
Module 27- Application Lighting Bulbs | 00:03:00 | ||
Module 28-Example 11 | 00:05:00 | ||
Unit 3- Methods of Analysis | |||
Module 1- Introduction to Methods of Analysis | 00:02:00 | ||
Module 2- Nodal Analysis with No Voltage Source | 00:15:00 | ||
Module 3-Example 1 | 00:04:00 | ||
Module 4-Cramer's Method | 00:04:00 | ||
Module 5-Nodal Analysis with Voltage Source | 00:07:00 | ||
Module 6- Example 2 | 00:05:00 | ||
Module 7- Example 3 | 00:13:00 | ||
Module 8-Mesh Analysis with No Current Source | 00:10:00 | ||
Module 9-Example 4 | 00:04:00 | ||
Module 10- Example 5 | 00:06:00 | ||
Module 11-Mesh Analysis with Current Source | 00:07:00 | ||
Module 12-Example 6 | 00:08:00 | ||
Module 13-Nodal Vs Mesh Analysis | 00:04:00 | ||
Module 14-Application DC Transistor | 00:04:00 | ||
Module 15-Example 7 | 00:04:00 | ||
Unit 4- Circuit Theorems | |||
Module 1-Introduction to Circuit theorems | 00:02:00 | ||
Module 2-Linearity of Circuit | 00:07:00 | ||
Module 3-Example 1 | 00:04:00 | ||
Module 4-Superposition Theorem | 00:07:00 | ||
Module 5- Example 2 | 00:04:00 | ||
Module 6-Example 3 | 00:06:00 | ||
Module 7-Source Transformation | 00:08:00 | ||
Module 8-Example 4 | 00:05:00 | ||
Module 9-Example 5 | 00:03:00 | ||
Module 10-Thevenin Theorem | 00:10:00 | ||
Module 11-Example 6 | 00:06:00 | ||
Module 12-Example 7 | 00:05:00 | ||
Module 13- Norton's Theorem | 00:05:00 | ||
Module 14-Example 8 | 00:03:00 | ||
Module 15-Example 9 | 00:05:00 | ||
Module 16-Maximum Power Transfer | 00:05:00 | ||
Module 17-Example 10 | 00:03:00 | ||
Module 18-Resistance Measurement | 00:05:00 | ||
Module 19-Example 11 | 00:01:00 | ||
Module 20-Example 12 | 00:04:00 | ||
Module 21-Summary | 00:05:00 | ||
Unit 5- Operational Amplifiers | |||
Module 1-Introduction to Operational Amplifiers | 00:03:00 | ||
Module 2-Construction of Operational Amplifiers | 00:07:00 | ||
Module 3-Equivalent Circuit of non Ideal Op Amp | 00:10:00 | ||
Module 4-Vo Vs Vd Relation Curve | 00:03:00 | ||
Module 5-Example 1 | 00:09:00 | ||
Module 6-Ideal Op Amp | 00:07:00 | ||
Module 7- Example 2 | 00:04:00 | ||
Module 8-Inverting Amplifier | 00:05:00 | ||
Module 9-Example 3 | 00:05:00 | ||
Module 10-Example 4 | 00:02:00 | ||
Module 11-Non Inverting Amplifier | 00:08:00 | ||
Module 12-Example 5 | 00:03:00 | ||
Module 13-Summing Amplifier | 00:05:00 | ||
Module 14-Example 6 | 00:02:00 | ||
Module 15-Difference amplifier | 00:06:00 | ||
Module 16-Example 7 | 00:08:00 | ||
Module 17-Cascaded Op Amp Circuits | 00:06:00 | ||
Module 18-Example 8 | 00:04:00 | ||
Module 19-Application Digital to Analog Converter | 00:06:00 | ||
Module 20-Example 9 | 00:04:00 | ||
Module 21-Instrumentation Amplifiers | 00:05:00 | ||
Module 22-Example 10 | 00:01:00 | ||
Module 23-Summary | 00:04:00 | ||
Unit 6- Capacitors and Inductors | |||
Module 1-Introduction to Capacitors and Inductors | 00:02:00 | ||
Module 2-Capacitor | 00:06:00 | ||
Module 3-Capacitance | 00:02:00 | ||
Module 4-Voltage-Current Relation in Capacitor | 00:03:00 | ||
Module 5-Energy Stored in Capacitor | 00:06:00 | ||
Module 6-DC Voltage and Practical Capacitor | 00:02:00 | ||
Module 7-Example 1 | 00:01:00 | ||
Module 8-Example 2 | 00:01:00 | ||
Module 9-Example 3 | 00:05:00 | ||
Module 10-Equivalent Capacitance of Parallel Capacitors | 00:02:00 | ||
Module 11-Equivalent Capacitance of Series Capacitors | 00:03:00 | ||
Module 12-Example 4 | 00:02:00 | ||
Module 13-Definition of Inductors | 00:06:00 | ||
Module 14-Definition of Inductance | 00:03:00 | ||
Module 15-Voltage-Current Relation in Inductor | 00:03:00 | ||
Module 16-Power and Energy Stored in Inductor | 00:02:00 | ||
Module 17-DC Source and Inductor | 00:04:00 | ||
Module 18-Example 5 | 00:02:00 | ||
Module 19-Series Inductors | 00:03:00 | ||
Module 20-Parallel Inductors | 00:04:00 | ||
Module 21-Example 6 | 00:01:00 | ||
Module 22-Small Summary to 3 Basic Elements | 00:02:00 | ||
Module 23-Example 7 | 00:05:00 | ||
Module 24-Application Integrator | 00:05:00 | ||
Module 25-Example 8 | 00:03:00 | ||
Module 26-Application Differentiator | 00:02:00 | ||
Module 27-Example 9 | 00:06:00 | ||
Module 28-Summary | 00:05:00 | ||
Assignment | |||
Assignment - Electrical Circuits Laws and Methods | 00:00:00 |
About The Provider
Studyhub UK
London, England
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