Electric Circuits for Electrical Engineering

Overview

Grasp the science of Electric Circuits for Electrical Engineering and how it relates to launching a lucrative career. Prepare for future Electric Circuits for Electrical Engineering needs by looking beyond the ongoing Electric Circuits for Electrical Engineering impact with Discover Training’s up-to-date Electric Circuits for Electrical Engineering course .

Discover Training’s Electric Circuits for Electrical Engineering course gives you a solid foundation in Electric Circuits for Electrical Engineering in many settings of human development. With industry expert interviews, you’ll gain a greater understanding of Electric Circuits for Electrical Engineering‘s applications and limitations, as well as how it’s already been efficiently used in the field. Discover Training’s Electric Circuits for Electrical Engineering course will help you obtain facts and knowledge to strengthen your abilities on both standard Electric Circuits for Electrical Engineering techniques.

As you progress through the interactive modules of this online program, you will have a strong grasp of Electric Circuits for Electrical Engineering to identify new opportunities for innovation and drive digital growth within your organization. Enrol in the Electric Circuits for Electrical Engineering course today and leverage your knowledge tomorrow.

What Will Make You Stand Out?

On Completion of this Electric Circuits for Electrical Engineering online course, you’ll acquire:

CPD QS Accredited Course.
Upon Course Completion, Earn a Complimentary PDF and a hard copy Certificate to Showcase Your Enhanced Skills.
Lifetime access.
24x7 Tutor Support.
Complete the course at your own pace.

Description

Industry professionals developed the content of this online Electric Circuits for Electrical Engineering course, combining their expertise and in-depth knowledge. The curriculum was developed by Discover Training to assist you in growing in your current role by providing you with the necessary information and concepts. As you progress through the modules of this course, you’ll learn the fundamentals of Electric Circuits for Electrical Engineering and explore the essential concepts.

Who is this course for?

This Electric Circuits for Electrical Engineering course is inclusive and accessible to individuals from diverse backgrounds. It specifically caters to those with a keen interest in the relevant sectors. Join us to expand your knowledge and excel in your chosen field.

Requirements

No formal requirements are needed! Enrol effortlessly in this Electric Circuits for Electrical Engineering course today. All you need is a device with internet access, and you’re all set to embark on your learning journey. Enjoy the flexibility of completing the course at your own pace.

Certification

Upon successful completion of the Electric Circuits for Electrical Engineering course, learners can obtain both a PDF certificate and a Hard copy certificate for completely FREE. The Hard copy certificate is available for a nominal fee of £3.99, which covers the delivery charge within the United Kingdom. Additional delivery charges may apply for orders outside the United Kingdom.

Career Path

Unlock the Potential of Electric Circuits for Electrical Engineering and gain valuable insights into the evolving Electric Circuits for Electrical Engineering industry. Acquire in-demand skills that can be immediately applied to lucrative job opportunities.

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	00:02:00
	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 7	00:04:00
	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	00:02:00
	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	00:06:00
	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	00:02:00
	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

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