Georgia Tech - Linear Circuits 1: DC Analysis
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Linear Circuits 1: DC Analysis at Coursera Overview
Duration | 85 hours |
Total fee | Free |
Mode of learning | Online |
Official Website | Explore Free Course  |
Credential | Certificate |
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Linear Circuits 1: DC Analysis at Coursera Highlights
- Shareable Certificate Earn a Certificate upon completion
- 100% online Start instantly and learn at your own schedule.
- Flexible deadlines Reset deadlines in accordance to your schedule.
- Approx. 85 hours to complete
- English Subtitles: Arabic, French, Portuguese (European), Italian, Portuguese (Brazilian), Vietnamese, German, Russian, English, Spanish
Linear Circuits 1: DC Analysis at Coursera Course details
- This course explains how to analyze circuits that have direct current (DC) current or voltage sources. A DC source is one that is constant. Circuits with resistors, capacitors, and inductors are covered, both analytically and experimentally. Some practical applications in sensors are demonstrated.
Linear Circuits 1: DC Analysis at Coursera Curriculum
Module 1: Introduction
1.0 Introduction to Linear Circuits 1: DC Analysis
1.1 Overview and Current
1.2 Voltage
1.3 Power and Energy
1.4 Resistance and Ohm's Law
1.5 Intro to Circuit Diagrams
Sample Problem: Ohm's Law and Power 1
Sample Problem: Ohm's Law and Power 2
Sample Problem: Power 1
Sample Problem: Power 2
Sample Problem: Power 3
Sample Problem: Power 4
Sample Problem: Voltage and Energy
Sample Problem: Electric Current and Charge 1
Sample Problem: Electric Current and Charge 2
Sample Problem: Voltage Division
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Syllabus
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Problem 1-1-1
Problem 1-1-2
Problem 1-1-3
Problem 1-2-1
Problem 1-2-2
Problem 1-2-3
Problem 1-2-4
Problem 1-2-5
Problem 1-3-1
Problem 1-3-2
Problem 1-3-3
Problem 1-4-1
Problem 1-4-2
Problem 1-4-3
Problem 1-4-4
Problem 1-4-5
Problem 1-5-1
Problem 1-5-2
Problem 1-5-3
Problem 1-5-4
Problem 1-5-5
Finding Circuit Values using Power
Module 1 Quiz
Module 2
2.1 Overview and Kirchhoff's Voltage Law
2.2 Kirchhoff's Current Law
2.3 Series and Parallel Resistance
2.4 Equivalent Resistance
2.5 Voltage Divider Law
2.6 Current Divider Law
Sample Problem: DC Op Amp 1
Sample Problem: DC Op Amp 2
Sample Problem: DC Op Amp 3
Sample Problem: DC Op Amp 4
Sample Problem: DC Op Amp 5
Sample Problem: Current Division 1
Sample Problem: Current Division 2
Sample Problem: Parallel and Series Resistors 1
Sample Problem: Parallel and Series Resistors 2
Sample Problem: KVL
Sample Problem: KVL 2
Sample Problem: KVL 3
Sample Problem: KCL 1
Sample Problem: KCL 2
Sample Problem: KCL 3
Sample Problem: KCL 4
Sample Problem: KCL 5
Sample Problem: Op Amps 1
Sample Problem: Op Amps 2
Sample Problem: Op Amps 3
Sample Problem: Nodes, Branches, Paths, and Loops
Sample Problem: Summing Op Amp
Sample Problem: Differential Amp
Sample Problem: Inverting Op Amp
Sample Problem: Non-inverting Op Amp
Sample Problem: Max Power (Depend Sources)
Sample Problem: Dependent Sources 1
Sample Problem: Dependent Sources 2
Sample Problem: Series/Parallel (Independ Sources) 1
Sample Problem: Series/Parallel (Independ Sources) 2
Sample Problem: Series/Parallel (Independ Sources) 3
Sample Problem: Series/Parallel (Independ Sources) 4
Sample Problem: Op Amps 4
Sample Problem: Op Amps 5
Sample Problem: Op Amps 6
Sample Problem: Op Amps 7
Sample Problem: Op Amps 8
Sample Problem: Op Amps 9
Sample Problem: Op Amps 10
Sample Problem: Op Amps 11
Sample Problem: Op Amps 12
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Problem 2-1-1
Problem 2-1-2
Problem 2-1-3
Problem 2-2-1
Problem 2-2-2
Problem 2-2-3
Problem 2-3-1
Problem 2-3-2
Problem 2-3-3
Problem 2-3-4
Problem 2-4-1
Problem 2-4-2
Problem 2-4-3
Problem 2-4-4
Problem 2-4-5
Problem 2-5-1
Problem 2-5-2
Problem 2-5-3
Problem 2-6-1
Problem 2-6-2
Problem 2-6-3
Module 2 Quiz
Module 3
3.1 Lab Demo: Electrical Components
3.2 Lab Demo: Basic Circuits
3.3 Mesh Analysis.
3.4 Node Analysis.
Sample Problem: Mesh/Node (Supernode)
Sample Problem: Mesh Analysis (Super Mesh)
Sample Problem: Mesh Analysis (Depend Sources) 1
Sample Problem: Mesh Analysis (Depend Sources) 2
Sample Problem: Mesh Analysis (Depend Sources) 3
Sample Problem: Mesh Analysis (Independ Sources) 1
Sample Problem: Mesh Anaysis (Independ Sources) 2
Sample Problem: Mesh Analysis (Independ Sources) 3
Sample Problem: Mesh Analysis (Independ Sources) 4
Sample Problem: Mesh Analysis (Independ Sources) 5
Sample Problem: Mesh Analysis (Independ Sources) 6
Sample Problem: Mesh Analysis (Independ Sources) 7
Sample Problem: Mesh Analysis (Independ Sources) 8
Sample Problem: Mesh Analysis (Independ Sources) 9
Sample Problem: Mesh Analysis (Independ Sources) 10
Sample Problem: Mesh Analysis (Independ Sources) 11
Sample Problem: Node Analysis 1
Sample Problem: Node Analysis 2
Sample Problem: Node Analysis 3
Sample Problem: Node (Indep and Dep Sources)
Sample Problem: Node Analysis (Independ Sources) 1
Sample Problem: Node Analysis (Independ Sources) 2
Sample Problem: Node Analysis (Independ Sources) 3
Sample Problem: Node Analysis (Independ Sources) 4
Sample Problem: Node Analysis (Independ Sources) 5
Sample Problem: Node Analysis (Independ Sources) 6
Sample Problem: Node Analysis (Depend Sources) 1
Sample Problem: Node Analysis (Depend Sources) 2
Sample Problem: Node Analysis (Depend Sources) 3
3-1-1
Problem 3-2-1
Problem 3-2-2
Problem 3-3-1
Problem 3-3-2
Problem 3-3-3
Problem 3-3-5
Problem 3-4-1
Problem 3-4-2
Problem 3-4-3
Module 3 Quiz
Module 4
4.1 Thevenin Equivalent Circuits.
4.2 Norton Equivalent Circuits and Source Transformations.
4.3 Linearity and Superposition.
4.4 Resistors in Sensors.
4.5 Wheatstone Bridge.
Sample Problem: Max Power(Thevenin)
Sample Problem: Thevenin (Independ Sources) 1
Sample Problem: Thevenin (Independ Sources) 2
Sample Problem: Thevenin (Independ Sources) 3
Sample Problem: Thevenin (Depend Sources)
Sample Problem: Norton (Independ Sources) 1
Sample Problem: Norton (Independ Sources) 2
Sample Problem: Superposition (Independ Sources) 1
Sample Problem: Superposition (Independ Sources) 2
Lab 2
Problem 4-1-1
Problem 4-1-2
Problem 4-1-3
Problem 4-2-1
Problem 4-2-2
Problem 4-2-3
Problem 4-3-1
Problem 4-3-2
Problem 4-3-3
Problem 4-3-4
Problem 4-4-1
Problem 4-4-2
Problem 4-4-3
Problem 4-5-1
Module 4 Quiz
Module 5
5.1 Introduction to Capacitors (Part 1).
5.2 Introduction to Capacitors (Part 2)
5.3 Series and Parallel Capacitors.
5.4 Introduction to Inductors.
5.5 Series and Parallel Inductors.
5.6 Energy in Reactive Elements
Sample Problem: Equivalent Capacitance
Sample Problem: Energy Storing Elements, Inductor
Sample Problem: Energy Storing Elements, Capacitor
Sample Problem: Energy Storing Elements 1
Sample Problem: Energy Storing Elements 2
Sample Problem: Energy Storing Elements 3
Sample Problem: Energy Storing Element and Op Amps 1
Sample Problem: Energy Storing Elements and Op Amps 2
Sample Problem: Energy Storing Elements and Op Amps 3
Sample Problem: Energy Storing Elements and Op Amps 4
Problem 5-1-1
Problem 5-1-2
Problem 5-1-3
Problem 5-2-1
Problem 5-2-2
Problem 5-2-3
Problem 5-3-1
Problem 5-3-2
Problem 5-3-3
Problem 5-4-1
Problem 5-4-2
Problem 5-4-3
Problem 5-5-1
Problem 5-5-2
Problem 5-5-3
Problem 5-6-1
Problem 5-6-2
Problem 5-6-3
Module 5 Quiz
Module 6
6.1 DC Behavior of Reactive Elements.
6.2 Continuity in Reactive Elements.
6.3 Switching With Reactive Elements After DC.
6.4 First Order RC Circuits.
6.5 Lab Demo: RC Circuit.
6.6 First Order RL Circuit.
Sample Problem: Circuits with Switches 1
Sample Problem: Circuits with Switches 2
Sample Problem: Energy Storing Elements and Switched Circuits
Sample Problem: Complete RL Response with Switches 1
Sample Problem: Complete RL Response with Switches 2
Sample Problem: Complete RC Response with Switches 1
Problem 6-1-1
Problem 6-1-2
Problem 6-1-3
Problem 6-1-4
Problem 6-1-5
Problem 6-2-1
Problem 6-2-2
Problem 6-2-3
Problem 6-2-4
Problem 6-2-5
Problem 6-3-1
Problem 6-3-2
Problem 6-3-3
Problem 6-3-4
Problem 6-4-1
Problem 6-4-2
Problem 6-4-3
Problem 6-4-4
Problem 6-4-5
Problem 6-5-1
Problem 6-5-2
Problem 6-6-1
Problem 6-6-2
Problem 6-6-3
Problem 6-6-4
Problem 6-6-5
Module 6 Quiz
Module 7
7.1 Applications of Capacitors.
7.2 Applications of Inductors.
7.3 Introduction to Second-Order Circuits.
7.4 The Natural Response.
7.5 Lab Demo:RLC Circuit.
7.6 (OPTIONAL): Obtaining the Differential Equation - Direct Method.
7.7 (OPTIONAL): Obtaining the Differential Equation - Operator Method.
7.8 (OPTIONAL): Finding the Initial Conditions
Sample Problem: Complete RLC Response 1
Sample Problem: Complete RLC Response 2
Problem 7-1-1
Problem 7-1-2
Problem 7-1-3
Problem 7-2-1
Problem 7-2-2
Problem 7-2-3
Problem 7-2-4
Problem 7-3-1
Problem 7-3-2
Problem 7-3-3
Problem 7-3-4
Problem 7-3-5
Problem 7-4-1
Problem 7-4-2
Problem 7-4-3
Problem 7-7-1
Problem 7-7-2
Sample Problems
Module 7 Quiz
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