11:15

#100/100: Why study quantum computing? || Quantum Computer Programming in 100 Easy Lessons

18:08

#99/100: Quantum Algorithms Recap: Factoring || Quantum Computer Programming in 100 Easy Lessons

16:57

#98/100: Quantum algs recap: Grover's Alg & SAT || Quantum Computer Programming in 100 Easy Lessons

04:25

#97½/100: Final Prize Pantry (no quantum) || Quantum Computer Programming in 100 Easy Lessons

29:57

#97/100: Quantum algs recap: Hadamard Transform || Quantum Computer Programming in 100 Easy Lessons

20:32

#96/100: Factoring finally finished! || Quantum Computer Programming in 100 Easy Lessons

15:07

#95/100: Rotation Estimation in superposition: 1 || Quantum Computer Programming in 100 Easy Lessons

16:09

#94/100: Equal superposition of steering wheels || Quantum Computer Programming in 100 Easy Lessons

17:22

#93/100: IncrL's rotation planes: perpendicular || Quantum Computer Programming in 100 Easy Lessons

13:19

#92/100: Recapping Factoring technical details || Quantum Computer Programming in 100 Easy Lessons

22:01

#91/100: All the planes of rotation for IncrL || Quantum Computer Programming in 100 Easy Lessons

14:54

#90/100: Verifying the first SW vector properties | Quantum Computer Programming in 100 Easy Lessons

23:35

#89/100: One Steering Wheel vector for IncrL || Quantum Computer Programming in 100 Easy Lessons

17:43

#88/100: Planes of rotation for IncrL, Part 1|| Quantum Computer Programming in 100 Easy Lessons

19:43

#87/100: Finding "L" from the clues || Quantum Computer Programming in 100 Easy Lessons

16:47

#86/100: Rotation Estimation gives clues about L || Quantum Computer Programming in 100 Easy Lessons

22:40

#85/100: We need to find the length of a cycle || Quantum Computer Programming in 100 Easy Lessons

20:38

#84/100: Factoring Algorithm: the overview || Quantum Computer Programming in 100 Easy Lessons

19:15

#83/100: The Hadamard Test: analysis || Quantum Computer Programming in 100 Easy Lessons

18:23

#82/100: The Hadamard Test || Quantum Computer Programming in 100 Easy Lessons

27:10

#81/100: Rotation Estimation: different settings || Quantum Computer Programming in 100 Easy Lessons

17:03

#80/100: Rotation Estimation: Bird's-Eye View || Quantum Computer Programming in 100 Easy Lessons

23:59

#79/100: Quantum win probability of CHSH is 85% | Quantum Computer Programming in 100 Easy Lessons

13:28

#78/100: Classical win probability of CHSH is 75% | Quantum Computer Programming in 100 Easy Lessons

11:26

#77/100: The CHSH Game || Quantum Computer Programming in 100 Easy Lessons

28:27

#76/100: How Alice & Bob mutually rotate |EPR〉|| Quantum Computer Programming in 100 Easy Lessons

25:42

#75/100: The key property of |EPR〉|| Quantum Computer Programming in 100 Easy Lessons

19:51

#74/100: Quantum teleportation: Part 2 || Quantum Computer Programming in 100 Easy Lessons

22:12

#73/100: Quantum teleportation: Part 1 || Quantum Computer Programming in 100 Easy Lessons

17:50

#72/100: Ops on separate qubits: order doesn't matter || Quantum Computer Prog. in 100 Easy Lessons

15:54

#71/100: Entanglement || Quantum Computer Programming in 100 Easy Lessons

20:00

#32/100: Correlation || Quantum Computer Programming in 100 Easy Lessons

22:32

#70/100: Tensor product || Quantum Computer Programming in 100 Easy Lessons

19:35

#69/100: The order of measuring doesn't matter || Quantum Computer Programming in 100 Easy Lessons

15:38

#68/100: Measuring/deleting one qubit of several || Quantum Computer Programming in 100 Easy Lessons

24:39

#67/100: Rotation Estimation: n digits, 10ⁿ steps | Quantum Computer Programming in 100 Easy Lessons

16:22

#66/100: Factoring via Rotation Estimation: plan || Quantum Computer Programming in 100 Easy Lessons

19:21

#65/100: Rotation Estimation, n digits accuracy? || Quantum Computer Programming in 100 Easy Lessons

21:46

#64/100: Rotation Estimation with additive error || Quantum Computer Programming in 100 Easy Lessons

19:52

#63/100: Factor-1% Rotation Estimation loose ends | Quantum Computer Programming in 100 Easy Lessons

21:42

#62/100: 1-qubit Rotation Estimation to factor 2 || Quantum Computer Programming in 100 Easy Lessons

20:31

#61/100: Detecting "medium" 1-qubit rotations || Quantum Computer Programming in 100 Easy Lessons

18:24

#60/100: 1-qubit Rotation Estimation: Overview || Quantum Computer Programming in 100 Easy Lessons

14:19

#59/100: Grover when you know 'p' to within 1% || Quantum Computer Programming in 100 Easy Lessons

17:41

#58/100: Tiny angle errors are not a problem || Quantum Computer Programming in 100 Easy Lessons

24:48

#57/100: Grovering with 's' satisfying strings || Quantum Computer Programming in 100 Easy Lessons

19:31

#56/100: Grover's SAT speedup is unimprovable || Quantum Computer Programming in 100 Easy Lessons

18:52

#55/100: Grover's Algorithm, Part 2 || Quantum Computer Programming in 100 Easy Lessons

20:02

#54/100 Grover's Algorithm, Part 1 || Quantum Computer Programming in 100 Easy Lessons

19:07

#53/100: SAT || Quantum Computer Programming in 100 Easy Lessons

17:54

#52/100: Reflecting through a vector || Quantum Computer Programming in 100 Easy Lessons

19:34

#51/100: The Elitzur-Vaidman Glitter Bomb || Quantum Computer Programming in 100 Easy Lessons

23:46

#50/100: Discriminating two rotations || Quantum Computer Programming in 100 Easy Lessons

16:05

#49/100: The No-Distinguishing Principle || Quantum Computer Programming in 100 Easy Lessons

13:19

#48/100: |v⟩ and −|v⟩ are indistinguishable || Quantum Computer Programming in 100 Easy Lessons

16:11

#47/100: Discriminating 2 qubits: optimal error || Quantum Computer Programming in 100 Easy Lessons

17:12

#46/100: Discriminating 2 qubits, multiple copies | Quantum Computer Programming in 100 Easy Lessons

11:41

#45/100: Discriminating 2 qubits, 2-sided error || Quantum Computer Programming in 100 Easy Lessons

19:56

#44/100: Discriminating 2 qubits, no false pos's || Quantum Computer Programming in 100 Easy Lessons

26:51

#43/100: Fun with filters || Quantum Computer Programming in 100 Easy Lessons