User:Sj/EdX
< User:Sj
Anant Agarwal and MIT are releasing course videos from EdX's and MIT's popular intro electronics course (taught by Agarwal and Gerry Sussman) - now under a free license. This is an overview of the videos and other materials from the course, as I'm looking at where they might be instructive.
- README for the project
- A guide to converting an EdX course to a set of Commons media + files, a Wikiversity course, and video clips embedded in articles.
- Outlining a course, uploading + embedding video, handling subtitles
Circuits and Electronics 1: Basic Circuit Analysis
[edit]Right now, you need to register for the course (anyone can do this at any time) to see these videos and materials:
Overview
[edit]- Circuit Simulator [5]
- Circuit Simulator - DC Analysis [6]
- Circuit Simulator - Transient Analysis [7]
- Circuit Simulator - AC Analysis [8]
Math Review
[edit]First Order Differential Equations
[edit]- 1st Order Differential Equations [9]
Complex Numbers
[edit]- Complex Arithmetic [10]
- Complex Geomtery [11]
- POLAR COORDINATES, PART 1 [12]
- POLAR COORDINATES, PART 2 [13]
- Euler's Formula [14]
- Inverse Euler [15]
- complex exponentials [16]
- complex replacement [17]
- COMPLEX ROOTS, PART 1 [18]
- COMPLEX ROOTS, PART 2 [19]
Auto-generated version
[edit]
- Circuit Simulator [30] *
- Circuit Simulator - DC Analysis [31] *
- Circuit Simulator - Transient Analysis [32] *
- Circuit Simulator - AC Analysis [33] *
- 1st Order Differential Equations [37] *
- Complex Arithmetic [40] *
- Complex Geomtery [41] *
- POLAR COORDINATES, PART 1 [42] *
- POLAR COORDINATES, PART 2 [43] *
- Euler's Formula [44] *
- Inverse Euler [45] *
- complex exponentials [46] *
- complex replacement [47] *
- COMPLEX ROOTS, PART 1 [48] *
- COMPLEX ROOTS, PART 2 [49] *
- Welcome to Circuits and Electronics 1 [55] *
- S1V4: Lumped element abstraction [56] *
- S1V5: Lumped element abstraction [57] *
- S1V6: Lumped element abstraction [58] *
- S1V7: Lumped element abstraction [59] *
- S1V8: Demo Setup - Lumped Elements [60] *
- S1V9: Demo - Taking Abstraction Too Far [61] *
- S1V10: Lumped Element Abstraction [62] *
- S1V11: Lumped Element Abstraction [63] *
- S1V12: KVL, KCL [64] *
- S1V13: Summary [65] *
- S2V1: Review KVL, KCL [67] *
- S2V2: Demo- KVL, KCL [68] *
- S2V3: Method 1 - KVL, KCL method [69] *
- S2V4: Method 1 - KVL, KCL method [70] *
- S2V5: Method 2 - Element combination rules [71] *
- S2V6: Method 3 - Node Analysis [72] *
- S2V7: Method 3 - Node Analysis [73] *
- S2V8: Method 3 - Node Analysis [74] *
- S2V9: Method 3 - Node Analysis [75] *
- S2V10: Method 3 - Node Analysis [76] *
- S2V11: Matrix formulation [77] *
- Tutorial intro by Piotr and Gerry [79] *
- Series resistors [80] *
- Parallel Resistors [81] *
- Combination Rules [82] *
- Nodal analysis [83] *
- Nodal Analysis with Floating Voltage Source [84] *
- S3V1: Introduction to Linearity [89] *
- S3V2: Properties of Linearity [90] *
- S3V3: Superposition [91] *
- S3V4: Superposition [92] *
- S3V5: Superposition [93] *
- S3V6: Demo Superposition [94] *
- S3V7: Thevenin Method [95] *
- S3V8: Thevenin Method [96] *
- S3V9: Thevenin Method [97] *
- S3V10: Norton Method [98] *
- S3V11: Summary [99] *
- S4V1: Intro, Review [101] *
- S4V2: Why Digital [102] *
- S4V3: Why Digital [103] *
- S4V4: Why Digital [104] *
- S4V5: Static Discipline [105] *
- S4V6: Static Discipline [106] *
- S4V7: Static Discipline [107] *
- S4V8: Static Discipline [108] *
- S4V9: Static Discipline [109] *
- S4V10: Digital Logic Circuits [110] *
- S4V11: Digital Logic Circuits [111] *
- S4V12: Digital Logic Circuits [112] *
- S4V13: Digital Logic Circuits [113] *
- S4V14: Digital Logic Circuits [114] *
- S4V15: Demo Setup - Chain Saw [115] *
- S4V16: Demo - Chain Saw [116] *
- S5V1: Review, Gates [125] *
- S5V2: Demo Setup - Gates [126] *
- S5V3: Demo - Gates [127] *
- S5V4: How to Use a Gate [128] *
- S5V5: Switch Model [129] *
- Duplicate of 'S5V5: Switch Model' [130] *
- S5V6: Switch Model [131] *
- S5V7: Switch Model [132] *
- S5V8: Switch Model [133] *
- S5V9.1: MOSFET Device, S Model, Demo Setup [134] *
- S5V9.2: MOSFET Device, S Model, Demo Setup [135] *
- S5V10: MOSFET Device, S Model, Demo Setup [136] *
- S5V11: DEMO MOSFET Switch Device, S Model Curve [137] *
- S5V12: MOSFET Inverter [138] *
- S5V13: MOSFET Inverter [139] *
- S5V14: SR Model [140] *
- S5V15: DEMO SR Model Curve [141] *
- S5V16: Inverters Based on SR Model [142] *
- S5V17: Static Power in Digital Circuits, Insights [143] *
- S5V18: Demo - Shatter a Mouse [144] *
- S6V1: Review of the Course So Far [146] *
- S6V2: Nonlinear Elements [147] *
- S6V3: Method 1 - Analytical Method [148] *
- S6V4: Method 1 - Analytical Method [149] *
- S6V5: Method 1 - Analytical Method [150] *
- S6V6: Method 2 - Graphical Method [151] *
- S6V7: Method 2 - Graphical Method [152] *
- S6V8: Method 3 - Piecewise Linear Method [153] *
- S6V9: Method 3 - Piecewise Linear Method [154] *
- S6V10: Method 3 - Piecewise Linear Method [155] *
- S6V11: Method 4 - Motivate the Incremental Method [156] *
- S6V12: Method 4 - Motivate the Incremental Method [157] *
- S6V13: Demo - Distorted Music with Nonlinear Element [158] *
- S6V14: If Only Circuits Were Linear... [159] *
- S7V1: Review [165] *
- S7V2: Intro - Setup for Demo, Curve Plotting Animation [166] *
- S7V3: DEMO - Music Over a Light Beam, Distorted Sinusoid and Music [167] *
- S7V4: Incremental Method Insight [168] *
- S7V5: Incremental Method Insight [169] *
- S7V6: DEMO - Music Over a Light Beam, Distortion and No Distortion [170] *
- S7V7: Mathematical Meaning [171] *
- S7V8: Mathematical Meaning [172] *
- S7V9: Mathematical Meaning [173] *
- S7V10: Graphical Meaning [174] *
- S7V11: Circuit Model [175] *
- S7V12: Circuit Model [176] *
- S7V13: Small Signal Circuit Elements [177] *
- S7V14: Small Signal Circuit Elements [178] *
- S7V15: Small Signal Circuit Solution Example [179] *
- S7V16: Small Signal Circuit Solution Example [180] *
- S8V1: Review [182] *
- S8V2: Intro to Dependent Sources [183] *
- S8V3: Example Dependent Source Circuit [184] *
- S8V4: Various Types of Dependent Sources [185] *
- S8V5: Another Dependent Source Example [186] *
- S8V6: Another Dependent Source Example [187] *
- S8V7: Superposition with (Linear) Dependent Sources [188] *
- S8V8: Intro to Amplifiers, Why Amplify [189] *
- S8V9: Intro to Amplifiers, Why Amplify [190] *
- S8V10: Build Amplifier with Abstract Dependent Source [191] *
- S8V11: Build Amplifier with Abstract Dependent Source [192] *
- S8V12: DEMO - Amplification [193] *
- S8V13: What Happens to Amplifier When Dependent Source has to Source Power [194] *
- S8V14: What Happens to Amplifier When Dependent Source has to Source Power [195] *
- S8V15: What Happens to Amplifier When Dependent Source has to Source Power [196] *
- S8V16: DEMO - Amplifier Transfer Function Stops Behaving Well [197] *
- Conclusion [198] *
- Load Line Experimental Demo [200] *
- Small signal model [201] *
- An abstract element [202] *
- Small signal model of a diode [203] *
- Good schematics [204] *