39 Cascade courses in Bristol delivered Online

This course will walk you through a whole real-world scenario for developing and deploying an ecommerce website with Blazor, and we will tackle numerous obstacles along the way. You will learn how to create a .NET 6 API from scratch and deploy .NET API, Blazor WASM, and Server to Azure in this course.

In this competitive job market, you need to have some specific skills and knowledge to start your career and establish your position. This Advanced Piping & Instrumentation Diagrams P&IDs will help you understand the current demands, trends and skills in the sector. The course will provide you with the essential skills you need to boost your career growth in no time. The Advanced Piping & Instrumentation Diagrams P&IDs will give you clear insight and understanding about your roles and responsibilities, job perspective and future opportunities in this field. You will be familiarised with various actionable techniques, career mindset, regulations and how to work efficiently. This course is designed to provide an introduction to Advanced Piping & Instrumentation Diagrams P&IDs and offers an excellent way to gain the vital skills and confidence to work toward a successful career. It also provides access to proven educational knowledge about the subject and will support those wanting to attain personal goals in this area. Learning Objectives Learn the fundamental skills you require to be an expert Explore different techniques used by professionals Find out the relevant job skills & knowledge to excel in this profession Get a clear understanding of the job market and current demand Update your skills and fill any knowledge gap to compete in the relevant industry CPD accreditation for proof of acquired skills and knowledge Who is this Course for? Whether you are a beginner or an existing practitioner, our CPD accredited Advanced Piping & Instrumentation Diagrams P&IDs is perfect for you to gain extensive knowledge about different aspects of the relevant industry to hone your skill further. It is also great for working professionals who have acquired practical experience but require theoretical knowledge with a credential to support their skill, as we offer CPD accredited certification to boost up your resume and promotion prospects. Entry Requirement Anyone interested in learning more about this subject should take this Advanced Piping & Instrumentation Diagrams P&IDs. This course will help you grasp the basic concepts as well as develop a thorough understanding of the subject. The course is open to students from any academic background, as there is no prerequisites to enrol on this course. The course materials are accessible from an internet enabled device at anytime of the day. CPD Certificate from Course Gate At the successful completion of the course, you can obtain your CPD certificate from us. You can order the PDF certificate for £9 and the hard copy for £15. Also, you can order both PDF and hardcopy certificates for £22. Career path The Advanced Piping & Instrumentation Diagrams P&IDs will help you to enhance your knowledge and skill in this sector. After accomplishing this course, you will enrich and improve yourself and brighten up your career in the relevant job market. Course Curriculum Introduction Introduction 00:04:00 About P&id's What's a P&ID ? 00:03:00 Why is a P&ID so important ? 00:02:00 Who uses P&ID's ? 00:06:00 How do P&ID's look like ? 00:08:00 Introduction to P&id Reading Introduction- PID READING 00:02:00 Anatomy of a P&ID 00:01:00 The title block 00:03:00 The drawing scale 00:03:00 The grid system 00:02:00 The revision block 00:03:00 Changes 00:02:00 Notes and legends 00:03:00 Basic P&id Symbols Valve symbols 00:14:00 Valve actuator symbols 00:09:00 Control valve designations 00:02:00 Standards and conventions for valve status 00:07:00 Process equipment symbols 00:12:00 Piping symbols 00:03:00 Pipe fitting symbols 00:03:00 Isolating, venting & draining symbols for ease of maintenance 00:05:00 Instrumentation 00:03:00 Sensing devices and detectors 00:04:00 Location symbols 00:04:00 Modifiers and transmitters 00:05:00 Indicators and recorders 00:03:00 Let's Get Some Practice : Basic P&id Symbols Example #1 : Identifying process equipment and flow paths 00:05:00 Example #2 : Identifying valve position and failure mode 00:03:00 Example #3 : Identifying the symbols 00:02:00 P&id Designation Codes Piping designation code 00:06:00 Equipment designation code 00:03:00 Instrument designation code 00:02:00 Miscellaneous designation codes 00:02:00 The Importance of Process Control The process 00:01:00 Process control 00:06:00 Control Theory Basics The control loop 00:02:00 Process control terms 00:10:00 Basic Process Control Systems (BPCS) Control loops : Feedback control 00:02:00 Pressure control loops 00:01:00 Flow control loops 00:01:00 Level control loops 00:01:00 Temperature control loops 00:01:00 Multi-variable loops 00:02:00 Feedforward control 00:02:00 Feedforward + Feedback 00:01:00 Cascade control 00:08:00 Split range control 00:03:00 Operations on control signals 00:02:00 Ratio control 00:02:00 Batch control 00:01:00 Selective control 00:01:00 Controllers 00:03:00 Advanced Process Control Do we need to control at all ? 00:01:00 Principles of equipment-wise control 00:10:00 Pipe control system 00:02:00 Control of a single pipe 00:02:00 Control of pressure in a pipe 00:03:00 Control of flow in a pipe 00:04:00 Flow merging 00:08:00 Flow splitting 00:05:00 Centrifugal pump control 00:04:00 Control valve vs Variable Frequency Drive (VFD) for centrifugal pumps 00:03:00 Minimum flow control for centrifugal pumps 00:09:00 Positive displacement pump control 00:02:00 Control by a recirculation pipe for PD pumps 00:03:00 Variable Speed Drive (VSD) control for PD pumps 00:01:00 Control by stroke adjustment for PD pumps 00:01:00 Compressor control system 00:02:00 Compressor capacity control 00:12:00 Compressor anti-surge control 00:03:00 Heat transfer equipment control 00:02:00 Heat exchanger direct control system 00:04:00 Heat exchanger bypass control system 00:04:00 Reactor temperature control 00:06:00 Air cooler control 00:02:00 Heat exchanger for heat recovery 00:01:00 Heat exchanger back pressure control 00:02:00 Basic fired heater control 00:08:00 Complex fired heater control 00:05:00 Container and vessel control 00:07:00 Container blanket gas control 00:02:00 Safety Instrumented Systems (SIS), Interlocks and Alarms Safety strategies 00:01:00 Concept of Safety Instrumented Systems (SIS) 00:01:00 SIS actions and types 00:14:00 SIS extent 00:02:00 SIS requirement 00:03:00 Anatomy of a SIS 00:02:00 SIS element symbols 00:01:00 SIS primary elements : Sensors 00:03:00 SIS final elements 00:04:00 Switching valve actuator arrangements 00:02:00 Valve position validation 00:02:00 Merging a switching valve and a control valve 00:03:00 SIS logics 00:01:00 Showing safety instrumented functions on P&ID's 00:07:00 Discrete control 00:05:00 Alarm system 00:02:00 Anatomy of alarm systems 00:02:00 Alarm requirements 00:06:00 Alarm system symbology in P&ID's 00:06:00 Concept of common alarms 00:01:00 Fire and Gas Detection Systems (FGS) 00:03:00 Electric motor control 00:07:00 P&ID representation of commands and responses 00:05:00 P&ID representation of inspection and repair 00:05:00 P&ID example of electro-motor control 00:04:00 P&id Examples : Let's Get Some Practice P&ID example #1 : Legend and specifications 00:05:00 P&ID example #2 : Hydrogen delivery station 00:16:00 P&ID example #3 : Acid system 00:13:00 P&ID example #4 : Centrifugal pump 00:09:00 P&ID example #5 : Utility station 00:04:00 P&ID example #6 : Waste water filter 00:08:00 P&ID example #7 : Steam separator 00:15:00 P&ID example #8 : Flare knock-out drum 00:14:00 P&ID example #9 : Centrifugal compressor 00:05:00 P&ID example #10 : Hydrogen production from shale gas 00:11:00 P&ID example #11 : Fired heater 00:07:00 Certificate and Transcript Order Your Certificates or Transcripts 00:00:00

This beginner's course exclusively delivers Python programming from basic to advanced. You will learn Python concepts in real-life programming examples by building real-world applications. Learn the syntax of Python language and understand the logic behind the programming process to create your Python programs successfully and master Python coding.

Discover the principles and strategies of rewilding in our comprehensive course on ecological restoration. Explore techniques, case studies, and community engagement to foster biodiversity while delving into the intersection of rewilding and sustainable ecotourism. Join us to gain practical skills in planning, funding, and monitoring rewilding projects for a thriving ecosystem and engaged communities.

Highlights of the Course Course Type: Online Learning Duration: 1 to 2 hours Tutor Support: Tutor support is included Customer Support: 24/7 customer support is available Quality Training: The course is designed by an industry expert Recognised Credential: Recognised and Valuable Certification Completion Certificate: Free Course Completion Certificate Included Instalment: 3 Installment Plan on checkout What you will learn from this course? Gain comprehensive knowledge about electric circuits Understand the core competencies and principles of electric circuits Explore the various areas of electric circuits Know how to apply the skills you acquired from this course in a real-life context Become a confident and expert electrical engineer Overview Master the skills you need to propel your career forward in electric circuits. This course will equip you with the essential knowledge and skillset that will make you a confident electrical engineer and take your career to the next level. This comprehensive early years teaching course is designed to help you surpass your professional goals. The skills and knowledge that you will gain through studying this early years teaching course will help you get one step closer to your professional aspirations and develop your skills for a rewarding career. This comprehensive course will teach you the theory of effective electric circuits practice and equip you with the essential skills, confidence and competence to assist you in the electric circuits industry. You'll gain a solid understanding of the core competencies required to drive a successful career in electric circuits. This course is designed by industry experts, so you'll gain knowledge and skills based on the latest expertise and best practices. This extensive course is designed for electrical engineer or for people who are aspiring to specialise in electric circuits. Enrol in this early years teaching course today and take the next step towards your personal and professional goals. Earn industry-recognised credentials to demonstrate your new skills and add extra value to your CV that will help you outshine other candidates. Who is this Course for? This comprehensive early years teaching course is ideal for anyone wishing to boost their career profile or advance their career in this field by gaining a thorough understanding of the subject. Anyone willing to gain extensive knowledge on this electric circuits can also take this course. Whether you are a complete beginner or an aspiring professional, this course will provide you with the necessary skills and professional competence, and open your doors to a wide number of professions within your chosen sector. Entry Requirements This early years teaching course has no academic prerequisites and is open to students from all academic disciplines. You will, however, need a laptop, desktop, tablet, or smartphone, as well as a reliable internet connection. Assessment This early years teaching course assesses learners through multiple-choice questions (MCQs). Upon successful completion of the modules, learners must answer MCQs to complete the assessment procedure. Through the MCQs, it is measured how much a learner could grasp from each section. In the assessment pass mark is 60%. Advance Your Career This early years teaching course will provide you with a fresh opportunity to enter the relevant job market and choose your desired career path. Additionally, you will be able to advance your career, increase your level of competition in your chosen field, and highlight these skills on your resume. Recognised Accreditation This course is accredited by continuing professional development (CPD). CPD UK is globally recognised by employers, professional organisations, and academic institutions, thus a certificate from CPD Certification Service creates value towards your professional goal and achievement. Course Curriculum Basic Concepts What Is an Electric Circuit 00:02:00 System of Units 00:06:00 What Is an Electric Charge 00:05:00 What Is an Electric Current 00:08:00 Example 1 00:01:00 Example 2 00:02:00 Example 3 00:02:00 What Is Voltage 00:07:00 What Is Power 00:06:00 What Is Energy 00:03:00 Example 4 00:02:00 Example 5 00:02:00 Dependent and Independent Sources 00:07:00 Example 6 Part 1 00:03:00 Example 6 Part 2 00:01:00 Application 1 Cathode Ray Tube 00:03:00 Example 7 00:04:00 Application 2 Electricity Bills 00:02:00 Basic Laws Introduction to Basic Laws 00:01:00 Definition of Resistance 00:06:00 Ohm's Law 00:02:00 Types of Resistances 00:05:00 Open and Short Circuit 00:05:00 Definition of Conductance 00:04:00 Example 1 00:01:00 Example 2 00:03:00 Example 3 00:03:00 Branch, Node and Loops 00:07:00 Series and Parallel Connection 00:03:00 KCL 00:03:00 KVL 00:03:00 Example 4 00:04:00 Example 5 00:02:00 Example 6 00:05:00 Series Resistors and Voltage Division 00:07:00 Parallel Resistors and Current Division 00:11:00 Analogy between Resistance and Conductance 00:06:00 Example 7 00:03:00 Example 8 00:04:00 Introduction to Delta-Wye Transformation 00:05:00 Delta to Wye Transformation 00:05:00 Wye to Delta Transformation 00:06:00 Example 9 00:02:00 Example 10 00:15:00 Application Lighting Bulbs 00:03:00 Example 11 00:05:00 Methods of Analysis Introduction to Methods of Analysis 00:01:00 Nodal Analysis with No Voltage Source 00:14:00 Example 1 00:05:00 Cramer's Method 00:04:00 Nodal Analysis with Voltage Source 00:06:00 Example 2 00:05:00 Example 3 00:12:00 Mesh Analysis with No Current Source 00:10:00 Example 4 00:03:00 Example 5 00:06:00 Mesh Analysis with Current Source 00:06:00 Example 6 00:07:00 Nodal Vs Mesh Analysis 00:04:00 Application DC Transistor 00:04:00 Example 7 00:04:00 Circuit Theorems Introduction to Circuit Theorems 00:02:00 Linearity of Circuit 00:07:00 Example 1 00:03:00 Superposition Theorem 00:07:00 Example 2 00:04:00 Example 3 00:06:00 Source Transformation 00:07:00 Example 4 00:05:00 Example 5 00:03:00 Thevenin Theorem 00:09:00 Example 6 00:06:00 Example 7 00:05:00 Norton's Theorem 00:05:00 Example 8 00:03:00 Example 9 00:05:00 Maximum Power Transfer 00:04:00 Example 10 00:03:00 Resistance Measurement 00:05:00 Example 11 00:01:00 Example 12 00:04:00 Summary 00:04:00 Operational Amplifiers Introduction to Operational Amplifiers 00:03:00 Construction of Operational Amplifiers 00:07:00 Equivalent Circuit of non Ideal Op Amp 00:09:00 Vo Vs Vd Relation Curve 00:03:00 Example 1 00:09:00 Ideal Op Amp 00:07:00 Example 2 00:04:00 Inverting Amplifier 00:05:00 Example 3 00:02:00 Example 4 00:02:00 Non Inverting Amplifier 00:08:00 Example 5 00:03:00 Summing Amplifier 00:04:00 Example 6 00:02:00 Difference amplifier 00:05:00 Example 7 00:07:00 Cascaded Op Amp Circuits 00:06:00 Example 8 00:04:00 Application Digital to Analog Converter 00:05:00 Example 9 00:04:00 Instrumentation Amplifiers 00:05:00 Example 10 00:01:00 Summary 00:04:00 Capacitors and Inductors Introduction to Capacitors and Inductors 00:02:00 Capacitor 00:06:00 Capacitance 00:02:00 Voltage-Current Relation in Capacitor 00:03:00 Energy Stored in Capacitor 00:06:00 DC Voltage and Practical Capacitor 00:02:00 Example 1 00:01:00 Example 2 00:01:00 Example 3 00:04:00 Equivalent Capacitance of Parallel Capacitors 00:02:00 Equivalent Capacitance of Series Capacitors 00:03:00 Example 4 00:02:00 Definition of Inductors 00:06:00 Definition of Inductance 00:03:00 Voltage-Current Relation in Inductor 00:03:00 Power and Energy Stored in Inductor 00:02:00 DC Source and Inductor 00:03:00 Example 5 00:02:00 Series Inductors 00:03:00 Parallel Inductors 00:03:00 Small Summary to 3 Basic Elements 00:02:00 Example 6 00:01:00 Example 7 00:04:00 Application Integrator 00:04:00 Example 8 00:03:00 Application Differentiator 00:02:00 Example 9 00:06:00 Summary 00:04:00 Obtain Your Certificate Order Your Certificate of Achievement 00:00:00 Get Your Insurance Now Get Your Insurance Now 00:00:00 Feedback Feedback 00:00:00

Overview This comprehensive course on Electric Circuits for Electrical Engineering  will deepen your understanding on this topic. After successful completion of this course you can acquire the required skills in this sector. This Electric Circuits for Electrical Engineering comes with accredited certification from CPD, which will enhance your CV and make you worthy in the job market. So enrol in this course today to fast track your career ladder. How will I get my certificate? You may have to take a quiz or a written test online during or after the course. After successfully completing the course, you will be eligible for the certificate. Who is This course for? There is no experience or previous qualifications required for enrolment on this Electric Circuits for Electrical Engineering. It is available to all students, of all academic backgrounds. Requirements Our Electric Circuits for Electrical Engineering is fully compatible with PC's, Mac's, Laptop, Tablet and Smartphone devices. This course has been designed to be fully compatible with tablets and smartphones so you can access your course on Wi-Fi, 3G or 4G. There is no time limit for completing this course, it can be studied in your own time at your own pace. Career Path Learning this new skill will help you to advance in your career. It will diversify your job options and help you develop new techniques to keep up with the fast-changing world. This skillset will help you to- Open doors of opportunities Increase your adaptability Keep you relevant Boost confidence And much more! Course Curriculum 7 sections • 135 lectures • 10:29:00 total length •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: 00:09:00 •Module 6- Example 2: 00:02:00 •Module 7- Example 3: 00:13:00 •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 •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: 00:01:00 •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 •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: 00:02:00 •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 •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: 00:04:00 •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 •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: 00:04:00 •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 •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: 00:02:00 •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 - Reporting and Data: 00:00:00

** Trust The 35000+ Students Who Are Learning with Us & Kick Starting Their Career! ** Deal Price is Active; Save Now- £403! Offer Ends Soon; Hurry Up!! Are you looking to improve your current abilities or make a career move? Our unique Electric Circuits for Electrical Engineering Course might help you get there! Expand your expertise with high-quality training - study the Electric Circuits for Electrical Engineering and get an expertly designed, great value training experience. Learn from industry professionals and quickly equip yourself with the specific knowledge and skills you need to excel in your chosen career through the online training course. This Electric Circuits for Electrical Engineering online training course is accredited by CPD with 10 CPD points for professional development. Students can expect to complete this training course in around 10 hours. You'll also get dedicated expert assistance from us to answer any queries you may have while studying our course. The Electric Circuits for Electrical Engineering course is broken down into several in-depth modules to provide you with the most convenient and rich learning experience possible. Upon successful completion of the course, you will receive an instant e-certificate as proof of the comprehensive skill development and competency. Add these amazing new skills to your resume and boost your employability by simply enrolling on this course. With this comprehensive Electric Circuits for Electrical Engineering course, you can achieve your dreams and train for your ideal career. The course provides students with an in-depth learning experience that they can work through at their own pace to enhance their professional development. You'll get a Free Student ID card by enrolling in this Electric Circuits for Electrical Engineering course. This ID card entitles you to discounts on bus tickets, movie tickets, and library cards. Enrolling on the Electric Circuits for Electrical Engineering course will ensure that you land your dream career faster than you thought possible. Stand out from the crowd and train for the job you want with the program. Experts created the Electric Circuits for Electrical Engineering course to provide a rich and in-depth training experience for all students who enrol in it. Enrol in the course right now and you'll have immediate access to all of the course materials. Then, from any internet-enabled device, access the course materials and learn when it's convenient for you. Start your learning journey straight away with this Electric Circuits for Electrical Engineering course and take a step toward a brighter future! Why Prefer this Course? Opportunity to earn a certificate accredited by CPD after completing this course Student ID card with amazing discounts - completely for FREE! (£10 postal charges will be applicable for international delivery) Standards-aligned lesson planning Innovative and engaging content and activities Assessments that measure higher-level thinking and skills Complete the program in your own time, at your own pace Each of our students gets full 24/7 tutor support *** Course Curriculum *** Electric Circuits for Electrical Engineering Course Unit 1- Basic Concepts Module 1- What Is an Electric Circuit Module 2-System of Units Module 3- What Is an Electric Charge Module 4- What Is an Electric Current Module 5-Example 1 Module 6- Example 2 Module 7- Example 3 Module 8- What Is Voltage Module 9- What Is Power Module 10- What Is Energy Module 11- Example 4 Module 12- Example 5 Module 13- Dependent and Independent Sources Module 14- Example 6 Part 1 Module 15- Example 6 Part 2 Module 16- Application 1 Cathode Ray Tube Module 17-Example 7 Module 18- Application 2 Electricity Bills Module 19- Example 8 Unit 2- Basic Laws Module 1- Introduction to Basic Laws Module 2- Definition of Resistance Module 3- Ohm's Law Module 4- Types of Resistances Module 5- Open and Short Circuit Module 6- Definition of Conductance Module 7- Example 1 Module 8- Example 2 Module 9- Example 3 Module 10- Branch, Node and Loops Module 11- Series and Parallel Connection Module 12- KCL Module 13- KVL Module 14- Example 4 Module 15- Example 5 Module 16- Example 6 Module 17- Series Resistors and Voltage Division Module 18-Parallel Resistors and Current Division Module 19- Analogy between Resistance and Conductance Module 20-Example 7 Module 21-Example 8 Module 22- Introduction to Delta-Wye Connection Module 23-Delta to Wye Transformation Module 24- Wye to Delta Transformation Module 25-Example 9 Module 26- Example 10 Module 27- Application Lighting Bulbs Module 28-Example 11 Unit 3- Methods of Analysis Module 1- Introduction to Methods of Analysis Module 2- Nodal Analysis with No Voltage Source Module 3- Example 1 Module 4-Cramer's Method Module 5-Nodal Analysis with Voltage Source Module 6- Example 2 Module 7- Example 3 Module 8-Mesh Analysis with No Current Source Module 9-Example 4 Module 10- Example 5 Module 11-Mesh Analysis with Current Source Module 12-Example 6 Module 13-Nodal Vs Mesh Analysis Module 14-Application DC Transistor Module 15-Example 7 Unit 4- Circuit Theorems Module 1-Introduction to Circuit theorems Module 2-Linearity of Circuit Module 3-Example 1 Module 4-Superposition Theorem Module 5- Example 2 Module 6-Example 3 Module 7-Source Transformation Module 8-Example 4 Module 9-Example 5 Module 10-Thevenin Theorem Module 11-Example 6 Module 12-Example 7 Module 13- Norton's Theorem Module 14-Example 8 Module 15-Example 9 Module 16-Maximum Power Transfer Module 17-Example 10 Module 18-Resistance Measurement Module 19-Example 11 Module 20-Example 12 Module 21-Summary Unit 5- Operational Amplifiers Module 1-Introduction to Operational Amplifiers Module 2-Construction of Operational Amplifiers Module 3-Equivalent Circuit of non Ideal Op Amp Module 4-Vo Vs Vd Relation Curve Module 5-Example 1 Module 6-Ideal Op Amp Module 7- Example 2 Module 8-Inverting Amplifier Module 9-Example 3 Module 10-Example 4 Module 11-Non Inverting Amplifier Module 12-Example 5 Module 13-Summing Amplifier Module 14-Example 6 Module 15-Difference amplifier Module 16-Example 7 Module 17-Cascaded Op Amp Circuits Module 18-Example 8 Module 19-Application Digital to Analog Converter Module 20-Example 9 Module 21-Instrumentation Amplifiers Module 22-Example 10 Module 23-Summary Unit 6- Capacitors and Inductors Module 1-Introduction to Capacitors and Inductors Module 2-Capacitor Module 3-Capacitance Module 4-Voltage-Current Relation in Capacitor Module 5-Energy Stored in Capacitor Module 6-DC Voltage and Practical Capacitor Module 7-Example 1 Module 8-Example 2 Module 9-Example 3 Module 10-Equivalent Capacitance of Parallel Capacitors Module 11-Equivalent Capacitance of Series Capacitors Module 12-Example 4 Module 13-Definition of Inductors Module 14-Definition of Inductance Module 15-Voltage-Current Relation in Inductor Module 16-Power and Energy Stored in Inductor Module 17-DC Source and Inductor Module 18-Example 5 Module 19-Series Inductors Module 20-Parallel Inductors Module 21-Example 6 Module 22-Small Summary to 3 Basic Elements Module 23-Example 7 Module 24-Application Integrator Module 25-Example 8 Module 26-Application Differentiator Module 27-Example 9 Module 28-Summary Assessment Process Once you have completed all the modules in the Electric Circuits for Electrical Engineering course, you can assess your skills and knowledge with an optional assignment. Our expert trainers will assess your assignment and give you feedback afterwards. CPD 10 CPD hours / points Accredited by CPD Quality Standards Who is this course for? Anyone interested in learning more about the topic is advised to take this course. This course is open to everybody. Requirements You will not need any prior background or expertise to enrol in this course. Career path After completing this course, you are to start your career or begin the next phase of your career. Certificates CPD Accredited Certificate Digital certificate - £10 CPD Accredited Certificate Hard copy certificate - £29 If you are an international student, then you have to pay an additional 10 GBP as an international delivery charge.

Ignite your passion for the electrifying world with our course on 'Electrical Engineering With Electric Circuits'. Envision the realm where electricity comes alive, weaving intricate patterns that power our world. Journey with us as we illuminate foundational concepts, delve deep into circuit analysis, and unveil the magic behind operational amplifiers. With each unit, you'll unravel the mysteries of capacitors, inductors, and the fundamental laws governing them, forging a path towards mastery in electrical engineering. Learning Outcomes Develop a solid understanding of the foundational concepts in electrical engineering. Discover and apply the basic laws governing electric circuits. Employ various methods to analyse complex electrical circuits. Understand the principles behind circuit theorems and operational amplifiers. Gain proficiency in working with capacitors and inductors. Why choose this Electrical Engineering With Electric Circuits course? Unlimited access to the course for a lifetime. Opportunity to earn a certificate accredited by the CPD Quality Standards after completing this course. Structured lesson planning in line with industry standards. Immerse yourself in innovative and captivating course materials and activities. Assessments are designed to evaluate advanced cognitive abilities and skill proficiency. Flexibility to complete the Electrical Engineering With Electric Circuits 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. Who is this Electrical Engineering With Electric Circuits course for? Aspiring electrical engineers seeking foundational knowledge. Technicians aiming for a deeper understanding of electric circuits. University students studying electrical engineering as a major. Hobbyists keen on diving into the world of circuits and electronics. Professionals in related fields aiming to expand their skill set. Career path Electrical Engineer: £25,000 - £55,000 Circuit Designer: £28,000 - £50,000 Operational Amplifier Specialist: £30,000 - £54,000 Electronics Technician: £20,000 - £40,000 System Analyst (Electrical Circuits): £32,000 - £57,000 Researcher in Electrical Engineering: £28,000 - £52,000 Prerequisites This Electrical Engineering With Electric Circuits does not require you to have any prior qualifications or experience. You can just enrol and start learning.This Electrical Engineering With Electric Circuits 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. Certification After studying the course materials, there will be a written assignment test which you can take at the end of the course. After successfully passing the test you will be able to claim the pdf certificate for £4.99 Original Hard Copy certificates need to be ordered at an additional cost of £8. 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 00:05:00 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 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 00:05:00 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 00:02:00 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 00:04:00 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 00:04:00 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 Assignment Assignment - Electrical Engineering With Electric Circuits 00:00:00

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