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Introduction to Computational Thinking (Fall 2020) (M-I-T)

S#	Lecture	Course	Institute	Instructor	Discipline
26	Generic programming (M-I-T)	Introduction to Computational Thinking (Fall 2020) (M-I-T)	MIT	Prof. Alan Edelman, Prof. David P. Sanders, Grant Sanderson, Dr. James Schloss, and Henri Drake	Applied Sciences
27	Iterative numerical schemes for Poisson and Laplace (M-I-T)	Introduction to Computational Thinking (Fall 2020) (M-I-T)	MIT	Prof. Alan Edelman, Prof. David P. Sanders, Grant Sanderson, Dr. James Schloss, and Henri Drake	Applied Sciences
28	Graphs and network dynamics (M-I-T)	Introduction to Computational Thinking (Fall 2020) (M-I-T)	MIT	Prof. Alan Edelman, Prof. David P. Sanders, Grant Sanderson, Dr. James Schloss, and Henri Drake	Applied Sciences
29	Multigrid (M-I-T)	Introduction to Computational Thinking (Fall 2020) (M-I-T)	MIT	Prof. Alan Edelman, Prof. David P. Sanders, Grant Sanderson, Dr. James Schloss, and Henri Drake	Applied Sciences
30	Graphs are matrices (M-I-T)	Introduction to Computational Thinking (Fall 2020) (M-I-T)	MIT	Prof. Alan Edelman, Prof. David P. Sanders, Grant Sanderson, Dr. James Schloss, and Henri Drake	Applied Sciences
31	Nonlinear climate dynamics and Snowball Earth (M-I-T)	Introduction to Computational Thinking (Fall 2020) (M-I-T)	MIT	Prof. Alan Edelman, Prof. David P. Sanders, Grant Sanderson, Dr. James Schloss, and Henri Drake	Applied Sciences
32	Graphs, trees, and spreading disease (M-I-T)	Introduction to Computational Thinking (Fall 2020) (M-I-T)	MIT	Prof. Alan Edelman, Prof. David P. Sanders, Grant Sanderson, Dr. James Schloss, and Henri Drake	Applied Sciences
33	Nonlinear dynamics: Stability and bifurcations (M-I-T)	Introduction to Computational Thinking (Fall 2020) (M-I-T)	MIT	Prof. Alan Edelman, Prof. David P. Sanders, Grant Sanderson, Dr. James Schloss, and Henri Drake	Applied Sciences
34	Hierarchical thinking (M-I-T)	Introduction to Computational Thinking (Fall 2020) (M-I-T)	MIT	Prof. Alan Edelman, Prof. David P. Sanders, Grant Sanderson, Dr. James Schloss, and Henri Drake	Applied Sciences
35	Ocean currents as two-dimensional advection diffusion (M-I-T)	Introduction to Computational Thinking (Fall 2020) (M-I-T)	MIT	Prof. Alan Edelman, Prof. David P. Sanders, Grant Sanderson, Dr. James Schloss, and Henri Drake	Applied Sciences
36	Parallel computing on your own machine (M-I-T)	Introduction to Computational Thinking (Fall 2020) (M-I-T)	MIT	Prof. Alan Edelman, Prof. David P. Sanders, Grant Sanderson, Dr. James Schloss, and Henri Drake	Applied Sciences
37	Probability via computation (M-I-T)	Introduction to Computational Thinking (Fall 2020) (M-I-T)	MIT	Prof. Alan Edelman, Prof. David P. Sanders, Grant Sanderson, Dr. James Schloss, and Henri Drake	Applied Sciences
38	Raytracing in 2D (M-I-T)	Introduction to Computational Thinking (Fall 2020) (M-I-T)	MIT	Prof. Alan Edelman, Prof. David P. Sanders, Grant Sanderson, Dr. James Schloss, and Henri Drake	Applied Sciences
39	Raytracing in 3D (M-I-T)	Introduction to Computational Thinking (Fall 2020) (M-I-T)	MIT	Prof. Alan Edelman, Prof. David P. Sanders, Grant Sanderson, Dr. James Schloss, and Henri Drake	Applied Sciences
40	What is an array, really? Abstract arrays (M-I-T)	Introduction to Computational Thinking (Fall 2020) (M-I-T)	MIT	Prof. Alan Edelman, Prof. David P. Sanders, Grant Sanderson, Dr. James Schloss, and Henri Drake	Applied Sciences
41	Resistors, equilibrium, and Poisson's equation (M-I-T)	Introduction to Computational Thinking (Fall 2020) (M-I-T)	MIT	Prof. Alan Edelman, Prof. David P. Sanders, Grant Sanderson, Dr. James Schloss, and Henri Drake	Applied Sciences
42	Why you don't game on supercomputers (M-I-T)	Introduction to Computational Thinking (Fall 2020) (M-I-T)	MIT	Prof. Alan Edelman, Prof. David P. Sanders, Grant Sanderson, Dr. James Schloss, and Henri Drake	Applied Sciences
43	Working with images in Julia (M-I-T)	Introduction to Computational Thinking (Fall 2020) (M-I-T)	MIT	Prof. Alan Edelman, Prof. David P. Sanders, Grant Sanderson, Dr. James Schloss, and Henri Drake	Applied Sciences
44	Seam carving (M-I-T)	Introduction to Computational Thinking (Fall 2020) (M-I-T)	MIT	Prof. Alan Edelman, Prof. David P. Sanders, Grant Sanderson, Dr. James Schloss, and Henri Drake	Applied Sciences
45	Writing self-documenting code (M-I-T)	Introduction to Computational Thinking (Fall 2020) (M-I-T)	MIT	Prof. Alan Edelman, Prof. David P. Sanders, Grant Sanderson, Dr. James Schloss, and Henri Drake	Applied Sciences
46	Seam carving live coding session (M-I-T)	Introduction to Computational Thinking (Fall 2020) (M-I-T)	MIT	Prof. Alan Edelman, Prof. David P. Sanders, Grant Sanderson, Dr. James Schloss, and Henri Drake	Applied Sciences
47	Macroscopic models of epidemic dynamics (M-I-T)	Introduction to Computational Thinking (Fall 2020) (M-I-T)	MIT	Prof. Alan Edelman, Prof. David P. Sanders, Grant Sanderson, Dr. James Schloss, and Henri Drake	Applied Sciences
48	Stencils and boundary conditions (M-I-T)	Introduction to Computational Thinking (Fall 2020) (M-I-T)	MIT	Prof. Alan Edelman, Prof. David P. Sanders, Grant Sanderson, Dr. James Schloss, and Henri Drake	Applied Sciences
49	Reflections on an epidemic video (M-I-T)	Introduction to Computational Thinking (Fall 2020) (M-I-T)	MIT	Prof. Alan Edelman, Prof. David P. Sanders, Grant Sanderson, Dr. James Schloss, and Henri Drake	Applied Sciences
50	Structure (M-I-T)	Introduction to Computational Thinking (Fall 2020) (M-I-T)	MIT	Prof. Alan Edelman, Prof. David P. Sanders, Grant Sanderson, Dr. James Schloss, and Henri Drake	Applied Sciences

Introduction to Computational Thinking (Fall 2020) (M-I-T)

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