|
|
| | time | views | |
| 8. Radioactive Decay — Modes, Energetics, and Trends | 50:00 | 188 | |
| 10. Radioactive Decay Continued | 1:33:18 | 142 | |
| 14. Photon Interactions with Matter I — Interaction Methods and Gamma Spectral Identification | 52:52 | 157 | |
| 35. Food Irradiation and Its Safety | 54:51 | 127 | |
| 12. Numerical Examples of Activity, Half Life, and Series Decay | 1:01:40 | 102 | |
| Lecture 1A: Overview and Introduction to Lisp | 1:12:56 | 17,078 | |
| Lecture 8A: Logic Programming, Part 1 | 41:45 | 5,019 | |
| Lecture 3A: Henderson Escher Example | 1:15:25 | 1,435 | |
| Lecture 7B: Metacircular Evaluator, Part 2 | 1:00:60 | 822 | |
| Lecture 6B: Streams, Part 2 | 1:03:10 | 554 | |
| Lecture 4A: Pattern Matching and Rule-based Substitution | 1:03:10 | 854 | |
| Lecture 2B: Compound Data | 1:16:47 | 1,023 | |
| Lecture 9A: Register Machines | 1:11:56 | 446 | |
| Lecture 5A: Assignment, State, and Side-effects | 1:15:20 | 418 | |
| Lecture 8B: Logic Programming, Part 2 | 1:08:45 | 391 | |
| Lecture 4B: Generic Operators | 1:23:38 | 449 | |
| Lecture 5B: Computational Objects | 1:04:31 | 486 | |
| Lecture 6A: Streams, Part 1 | 1:06:57 | 368 | |
| Lecture 1B: Procedures and Processes; Substitution Model | 58:22 | 2,071 | |
| Lecture 10A: Compilation | 45:44 | 303 | |
| Lecture 9B: Explicit-control Evaluator | 1:10:43 | 185 | |
| Lecture 2A: Higher-order Procedures | 1:01:21 | 1,231 | |
| Lecture 10B: Storage Allocation and Garbage Collection | 58:53 | 397 | |
| Lecture 7A: Metacircular Evaluator, Part 1 | 1:24:38 | 1,199 | |
| Lecture 3B: Symbolic Differentiation; Quotation | 44:20 | 589 | |
| An Interview with Gilbert Strang on Teaching Matrix Methods in Data Analysis, Signal Processing,... | 8:70 | 6,471 | |
| An Interview with Gilbert Strang on Teaching Linear Algebra | 7:34 | 75,002 | |
| 4.2.6 Multiplexers | 3:14 | 1,774 | |
| R10. Metal-Binding Studies and Dissociation Constant Determination | 59:59 | 2,872 | |
| 20. Cholesterol Biosynthesis 2 | 51:19 | 1,087 | |
| 24. Cholesterol Homeostasis 4 | 49:30 | 653 | |
| 29. Metal Ion Homeostasis 5 | 52:15 | 506 | |
| R2. Pre-Steady State and Steady-State Kinetic Methods Applied to Translation | 53:57 | 583 | |
| R6. Macromolecular Electron Microscopy Applied to Fatty Acid Synthase | 1:00:31 | 407 | |
| 35. Nucleotide Metabolism 2 | 48:24 | 396 | |
| 31. Metal Ion Homeostasis 7 & Reactive Oxygen Species 1 | 52:40 | 177 | |
| 26. Metal Ion Homeostasis 2 | 51:44 | 135 | |
| 2. Protein Synthesis 1 | 50:48 | 1,576 | |
| 27. Metal Ion Homeostasis 3 | 52:22 | 150 | |
| 9. Protein Folding 2 | 52:23 | 373 | |
| 34. Reactive Oxygen Species 4 & Nucleotide Metabolism 1 | 49:24 | 220 | |
| 16. PK and NRP Synthases 2 | 55:47 | 123 | |
| 23. Cholesterol Homeostasis 3 | 53:20 | 94 | |
| R9. Cholesterol Homeostasis and Sensing | 54:23 | 77 | |
| 10. Protein Folding 3 | 46:14 | 160 | |
| 4. Protein Synthesis 3 | 51:34 | 373 | |
| R5. Overview of Cross-Linking, Including Photo-Reactive Cross-Linking Methods | 50:42 | 161 | |
| 21. Cholesterol Biosynthesis 3 & Cholesterol Homeostasis 1 | 53:40 | 149 | |
| R4. Purification of Native and Mutant Ribosomes, Protein Purification | 59:26 | 130 | |
| 18. PK and NRP Synthases 4 | 54:40 | 88 | |
| 19. Cholesterol Biosynthesis 1 | 51:28 | 220 | |
| 7. Protein Synthesis 6 | 50:40 | 257 | |
| 15. PK and NRP Synthases 1 | 50:10 | 117 | |
| 33. Reactive Oxygen Species 3 | 54:17 | 97 | |
| 22. Cholesterol Homeostasis 2 | 49:29 | 85 | |
| R3. Pre-Steady State and Steady-State Kinetic Methods Applied to Translation | 55:28 | 134 | |
| 28. Metal Ion Homeostasis 4 | 51:56 | 77 | |
| 12. Protein Degradation 1 | 51:11 | 204 | |
| 13. Protein Degradation 2 | 51:40 | 118 | |
| 32. Reactive Oxygen Species 2 | 49:25 | 94 | |
| 17. PK and NRP Synthases 3 | 51:25 | 151 | |
| R1. Determining, Analyzing, and Understanding Protein Structures | 29:11 | 749 | |
| R7. Application of Single Molecule Methods | 53:58 | 198 | |
| 14. Protein Degradation 3 | 48:43 | 159 | |
| R8. Application of CRISPR to Study Cholesterol Regulation | 54:14 | 150 | |
| R11. Mass Spectrometry | 54:17 | 155 | |
| 8. Protein Folding 1 | 51:48 | 302 | |
| R12. Mass Spectrometry of the Cysteine Proteome | 53:50 | 103 | |
| 6. Protein Synthesis 5 | 52:16 | 191 | |
| 3. Protein Synthesis 2 | 50:30 | 461 | |
| 11. Protein Folding 4 | 51:21 | 96 | |
| 30. Metal Ion Homeostasis 6 | 52:37 | 46 | |
| 36. Nucleotide Metabolism 3 | 50:57 | 109 | |
| 5. Protein Synthesis 4 | 51:13 | 254 | |
| 1. What is Computation? | 43:60 | 59,209 | |
| 7. Eckart-Young: The Closest Rank k Matrix to A | 47:16 | 8,089 | |
| 6. Wallets and SPV | 1:07:16 | 1,856 | |
| 12. Transaction Malleability and Segregated Witness | 1:15:13 | 891 | |
| 11. Fees | 1:17:40 | 857 | |
| 8. Forks | 1:21:51 | 1,146 | |
| 1. Signatures, Hashing, Hash Chains, e-cash, and Motivation | 1:06:38 | 21,908 | |
| 23. New Directions in Crypto | 1:11:18 | 896 | |
| 7. Catena: Efficient Non-equivocation via Bitcoin | 1:21:19 | 707 | |
| 3. Signatures | 1:14:44 | 2,001 | |
| 10. PoW Recap, Other Fork Types | 1:04:14 | 367 | |
| 22. Alternative Consensus Mechanisms | 1:20:33 | 407 | |
| 15. Discreet Log Contracts | 1:15:49 | 398 | |
| 13. Payment Channels and Lightning Network | 1:19:15 | 903 | |
| 4. Transactions and the UTXO model | 1:12:20 | 1,044 | |
| 2. Proof of Work and Mining | 1:22:42 | 3,776 | |
| 17. Anonymity, Coinjoin and Signature Aggregation | 1:13:34 | 316 | |
| 16. MAST, Taproot, Graftroot | 1:16:22 | 285 | |
| 14. Lightning Network and Cross-chain Swaps | 1:00:25 | 352 | |
| 5. Synchronization Process and Pruning | 1:12:10 | 876 | |
| 24. zkLedger | 1:13:23 | 367 | |
| 18. Confidential Transactions | 1:20:10 | 306 | |
| 12.2.2 Activation Records and Stacks | 8:42 | 205 | |
| 4.2.8 Worked Examples: Gates and Boolean Logic | 7:52 | 286 | |
| 6.2.7 Worked Examples: FSM Implementation | 3:31 | 186 | |
| 4.2.2 Useful Logic Gates | 5:56 | 421 | |
|
|