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[View \| Download]	Lecture - 27 Problem Solving Session on Discrete Time System By nptelhrd Lecture Series on Digital Signal processing by Prof. S. C. Dutta Roy, Department of Electrical Engineering, IIT Delhi. For more Courses visit http://nptel.iitm.ac.in Tags: discrete, on, problem, session, solving, system, time 1 Downloads - Last from: http://downthisvideo.com/tag/rock (Your Blog here!)
[View \| Download]	Lecture - 22 Problem Solving Session: FT,DFT, & Z Transforms By nptelhrd Lecture Series on Digital Signal processing by Prof. S. C. Dutta Roy, Department of Electrical Engineering, IIT Delhi. For more Courses visit http://nptel.iitm.ac.in Tags: dft, ft, problem, session:, solving, transfo 1 Downloads - Last from: http://downthisvideo.com/tag/rock (Your Blog here!)
[View \| Download]	Lecture - 21 Problem Solving Session: FT, DFT,& Z Transforms By nptelhrd Lecture Series on Digital Signal processing by Prof. S. C. Dutta Roy, Department of Electrical Engineering, IIT Delhi. For more Courses visit http://nptel.iitm.ac.in Tags: dft, ft, problem, session:, solving, transforms 1 Downloads - Last from: http://downthisvideo.com/tag/rock (Your Blog here!)
[View \| Download]	How To Solve a 4x4x4 Rubik's Cube - Step 2 - Edge Pairing By RobH0629 Link to Step 3 - Parity Errors and Final Solve http://www.youtube.com/watch?v=OUU22J... This is a tutorial on how to pair the edges of the 4x4 to eventually convert the 4x4 into what resembles a mixed up 3x3. We will have to know how to position edges opposite from one another and with switched orientations (colors on the same face). The algorithm we will use for this step is: (Dd) R F' U R' F (Dd)' NOTE In my video, I was a little ambiguous/unclear on how to position the last two pairs of edge pieces before performing the above algorithm. When I said we "need the same color on the same face".. I meant to say "both identical pairs of edges should have the same color on the same face as its complementary piece and be situated in the same layer as well".. I believe that the example in the cube cleared it up, but I just wanted to put it here too in case someone actually reads all this :-) This algorithm will be used to fix the remaining 2 pairs of edges. You may not have to even use this algorithm depending on how you match the last pairs of edges. IF YOU FIND THIS TUTORIAL HELPFUL PLEASE COMMENT. I WOULD LIKE TO KNOW IF PEOPLE FOUND THE VIDEO HELPFUL. Tags: 4x4, 4x4x4, beginners, cube, edge, edges, how, method, pairing, revenge, rubik's, rubiks, rubix, solve, solving, to, tutorial, yt:quality=high 1 Downloads - Last from: http://downthisvideo.com/ (Your Blog here!)
[View \| Download]	Rubik's Cube One-handed: 14.56 seconds World Record Yu Nakajima By nakaji1084 My website: http://www.cutex.info/ (You can learn how to solve the Rubik's cube) I am 3rd place in the World at single record(8.72 seconds). And average record is 1st place(11.28 seconds World Record) Please see this video: http://www.youtube.com/watch?v=h6GnxK... and this page: http://www.worldcubeassociation.org/r... (World Cube Association official results) This is former One-handed World Record. Average of 5: 11.31 seconds http://www.youtube.com/watch?v=yo5_1W... 6.57 seconds solve http://www.youtube.com/watch?v=jI_zjW... --------- Tokyo Open 2008 One-handed 3rd solve YEEEEEEEEEEES!!!! But, this was a pretty easy OLL(Anti sune) and a PLL skip. So, THE LUCKY SOLVE ;) Tags: 2x2x2, 3x3x3, 4x4x4, 5x5x5..., algorithm, cube, how, method, professor, revenge, rubic, rubik, rubik's, rubix, solution, solve, solving, speedcubing, to, v-cube 1 Downloads - Last from: (Your Blog here!)
[View \| Download]	Rubik's Cube: 7.85 seconds By nakaji1084 My website: http://www.cutex.info/ (You can learn how to solve the Rubik's cube) I am 3rd place in the World at single record(8.72 seconds). And average record is 1st place(11.28 seconds World Record) Please see this video: http://www.youtube.com/watch?v=h6GnxK... and this page: http://www.worldcubeassociation.org/r... (World Cube Association official results) So, 7.85 is good. Please see my other videos if you think I am saying the lie. Average of 5: 11.31 seconds http://www.youtube.com/watch?v=yo5_1W... 6.57 seconds solve http://www.youtube.com/watch?v=jI_zjW... --------- 7.85秒でルービックキューブ完成させています。 This is full step. Tags: 2x2x2, 3x3x3, 4x4x4, 5x5x5..., algorithm, cube, how, method, professor, revenge, rubic, rubik, rubik's, rubix, solution, solve, solving, speedcubing, to, v-cube 1 Downloads - Last from: (Your Blog here!)
[View \| Download]	Rubik's Cube: 6.57 seconds By nakaji1084 My website: http://www.cutex.info/ (You can learn how to solve the Rubik's cube) I am 3rd place in the World at single record(8.72 seconds). And average record is 1st place(11.28 seconds World Record) Please see this video: http://www.youtube.com/watch?v=h6GnxK... and this page: http://www.worldcubeassociation.org/r... (World Cube Association official results) 6.57 is very good. Please see my other videos if you think I am saying the lie. Average of 5: 11.31 seconds http://www.youtube.com/watch?v=yo5_1W... --------- Scramble: D' B' L R B2 U2 L' R2 U2 B' D U B' D' U L' D U L' R B2 L2 U' R2 D' PLL skip. Cube: Rubik's DIY Tags: 2x2x2, 3x3x3, 4x4x4, 5x5x5..., algorithm, cube, how, method, professor, revenge, rubic, rubik, rubik's, rubix, solution, solve, solving, speedcubing, to, v-cube 1 Downloads - Last from: (Your Blog here!)
[View \| Download]	Rubik's 2x2+3x3+4x4+5x5+6x6+7x7: 9:53.65 By nakaji1084 Not PB.(PB is 9:36.49) But sub10 :) 2x2x2: East Sheen 3x3x3: Rubik's DIY 4x4x4: East Sheen 5x5x5: V-CUBE 6x6x6: V-CUBE 7x7x7: V-CUBE Tags: 2x2x2, 3x3x3, 4x4x4, 5x5x5..., algorithm, cube, how, method, professor, revenge, rubic, rubik, rubik's, rubix, solution, solve, solving, speedcubing, to, v-cube 1 Downloads - Last from: (Your Blog here!)
[View \| Download]	Megaminx: 57.56 seconds By nakaji1084 Not PB.(PB is 56.12. PB average is 1:04.24.) But good one. Tags: 2x2x2, 3x3x3, 4x4x4, 5x5x5..., algorithm, cube, how, method, professor, revenge, rubic, rubik, rubik's, rubix, solution, solve, solving, speedcubing, to, v-cube 1 Downloads - Last from: (Your Blog here!)
[View \| Download]	Lec 11 \| MIT 6.00 Introduction to Computer Science and Programming, Fall 2008 By MIT Lecture 11: Testing and debugging Instructors: Prof. Eric Grimson, Prof. John Guttag View the complete course at: http://ocw.mit.edu/6-00F08 License: Creative Commons BY-NC-SA More information at http://ocw.mit.edu/terms More courses at http://ocw.mit.edu Tags: ..., algorithms, binary, classes, computation, computer, inheritance, libraries, optimization, problem, programming, python, recursion, science, search, solving 1 Downloads - Last from: http://downthisvideo.com/ (Your Blog here!)
[View \| Download]	How to Solve a Rubik's Cube - Step 2 - Bottom White Corners By RobH0629 Link to Step 3: http://www.youtube.com/watch?v=wTPOqm... Do you NOT see the upside down T's? Other Problems? Then Watch this clarification video: http://www.youtube.com/watch?v=Zg5lKh... You must look on the top layer for corners which have a white color on the side (not top or bottom faces). Once you have found (or corrected using the R T180 Ri), you must match the other adjacent color to white (not on top again, but on the side) with its corresponding color diagonally. Now hold the center of the color that you just matched the white corner diagonally with and the white sticker should either be on the left or right face. Then you must perform the following moves: If white facing left, do Li Ti L (Li = left quarter turn counter-clockwise, L = left quarter turn clockwise), If white facing right, do R T Ri. You must do this for all four corners. IMPORTANT: When fixing corner pieces which have white facing UP,you must place it above the last empty corner space on bottom before doing the R T180 Ri or Li T180 L moves. IMPORTANT: you should NEVER be looking at the white color when you are placing it down, you should always be holding the center piece of the other color on the side with white while placing the corner piece. After you have placed all 4 BOTTOM WHITE CORNERS, you should see upside down COLOR T's on the 4 sides of the cube (not top or bottom). If you do NOT have these T's, that means you DID NOT match the corner pieces properly with its side color BEFORE using the 3 moves (up, towards you, down). Match the color on the ADJACENT SIDE of WHITE with its respective center. Then, while holding that center towards you, you must see whether the corner piece is now on the LEFT or RIGHT of that center piece. If on RIGHT, do R T Ri. If on LEFT, do the Li Ti L move. Watch the video for demonstration. ATTENTION: I WOULD LIKE PEOPLE TO LET ME KNOW WHETHER THEY WERE ABLE TO UNDERSTAND THIS STEP, SINCE IT IS A LITTLE TRICKY. I WAS THINKING OF POSTING AN ADDITIONAL VIDEO, SO PLEASE LEAVE FEEDBACK AND COMMENTS OR SEND ME A MESSAGE TO MY INBOX LETTING ME KNOW WHETHER AN ADDITIONAL VIDEO WOULD HELP YOU OUT. THANK YOU!!! how to solve a rubik's rubiks rubix rubics cube 3x3 tutorial rubik's help step by speed speedsolve solving unscramble fix learn simple easy easiest quick lesson cross fridrich petrus 3x3x3 4x4 5x5 revenge professor method algorithm beginners solution walk through guide Tags: 3x3, algorithm, by, cube, easy, how, learn, lesson, method, rubics, rubik's, rubiks, rubix, solve, solving, step, to, tutorial, yt:quality=high 1 Downloads - Last from: http://downthisvideo.com/ (Your Blog here!)
[View \| Download]	How To Solve A Rubik's Cube Easily By quicksilver7330 This video should offer a much more simplified way of solving that Rubik's Cube. Tags: cube, how, rubiks, rubix, solving, to 2 Downloads - Last from: http://downthisvideo.com/ (Your Blog here!)
[View \| Download]	How to Solve a 5x5x5 Rubik's Cube - Part 4 - Parity Errors By RobH0629 Looking to see how to solve the bigger Cubes as a 3x3? Click THIS LINK to see my Video Explaining it! http://www.youtube.com/watch?v=hp1afu... Unsure of how to solve a 3x3 Rubik's Cube? Check out my 3x3 Tutorial: http://www.youtube.com/watch?v=_yU-Ew... Goes over the 3 main types of parity errors you will encounter while pairing edge pieces on the 5x5 cube, the single edge flip, the edge swap, and checkerboard patterns. You will only need to know two algorithms in order to correct the parity errors, and you should already know the first one since it is also used to solve the 4x4 parity error. The first parity case I go over is one where we have one middle edge piece which is flipped. The algorithm I give you does not actually flip that single middle edge piece alone, but flips the two outer edge pieces over so they are the same orientation as the middle piece. The algorithm we use to correct this is the same algorithm we used in the 4x4 Tutorial for fixing the PLL parity error which occurred when solving the top cross. It is: (Rr)2 B2 U2 (Ll) U2 (Rr)' U2 (Rr) U2 F2 (Rr) F2 (Ll)' B2 (Rr)2 ________________________________________ The second type of parity case is one where we have two outer/wing edge pieces which have switched places. That algorithm we will be using is: (Ll)' U2 (Ll)' U2 F2 (Ll)' F2 (Rr) U2 (Rr)' U2 (Ll)2 ________________________________________ The third type of parity error is basically a mix of the first two errors we see and can be solved using both the above algorithms, and also an algorithm used to solve the 4x4 edge parity. HOWEVER, to keep to the simplicity of only having to memorize ONE additional algorithm and because this is a RARE case, we are only going to use the 2nd algorithm, which I call the "Edge Switcher". You can see the full set of algorithms at http://www.bigcubes.com/5x5x5/lastedg... Once you have fixed all parity errors, you will then find that you can solve the 5x5 cube EXACTLY like a 3x3. What does that mean? It means that the 3x3 center block is identical to the 3x3 cube center. Each 3x1 tredge piece is identical to ONE 3x3 cube edge pieces. Knowing that, you can go on to do the cross, place the middle edge pieces, and complete the top layer. If you would like a demonstration, I solve the 4x4 exactly like a 3x3 in my "How to Solve a 4x4 Rubik's Cube - Step 3 - Parity Errors" video on my channel playlist for the 4x4 cube. You can fast forward to 1:00 and watch from there for the demonstration. If you can solve a 4x4 cube like a 3x3, however, then you should have little to no difficulty in solving the 5x5 either. There are also NO LAST LAYER Parity errors to worry about when solving the 5x5 cube as a 3x3. It is ready to go! Hope you found this tutorial helpful! As always please leave comments and/or questions if you have them and rate the video if you enjoy. Thanks for watching! How-To How To Solve a the 5x5 5x5x5 Rubik's Rubiks Rubix Rubics Rubick Cube Parity Errors Edge Edges Pair Pairing Professor Tutorial beginners Lesson Fast Faster Quickly Intermediate Advanced speed speedsolve fast faster placing centers Method edge pairing tredges 3x3 3x3x3 4x4x4 4x4 fridrich petrus algorithm parity errors help Erno Rubik 2 3 4 5 6 gen quicker quickly advanced match case world record Tags: 5x5, 5x5x5, algorithm, cube, edge, errors, how, method, pairing, parity, professor, rubics, rubik's, rubix, solve, solving, to, tutorial, yt:quality=high 1 Downloads - Last from: http://downthisvideo.com/ (Your Blog here!)
[View \| Download]	How to Solve a 4x4x4 Rubik's Cube - Step 3 - Parity Errors By RobH0629 This step goes over the remaining 2 parity error cases (There are really 3 more, but we basically skip the corners parity error when using my Step 6 algorithm) that you may see when solving the 4x4 and also shows how to solve the 4x4 as a 3x3 cube thus allowing you to finish solving the cube completely! Link to Step 3b - A helpful Video for the 4x4: http://www.youtube.com/watch?v=y7DoZu... IMPORTANT* FOR MOST OF THE 3X3 ALGORITHMS, THERE ARE CERTAIN WAYS YOU MUST POSITION THE CUBE BEFORE YOU PERFORM THE ALGORITHM. I DO NOT GO INTO DETAIL ON HOW TO PERFORM THESE MOVES AND SO HAVE INCLUDED THE STEPS IN THE 3X3 TUTORIAL WHICH CORRESPOND TO THESE MOVES. PLEASE SEE MY 3X3 TUTORIAL FOR MORE DETAILS IF YOU ARE HAVING DIFFICULTY USING MY ALGORITHMS. THANK YOU! NOTE If you do NOT use my 3x3 method to solve the 4x4, you may come across a FOURTH "parity error". This error affects the position and/or orientation of the top CORNER pieces. ALL YOU HAVE TO DO is use the algorithm I have listed below and also demonstrated in THIS tutorial...the one that corresponds to STEP 6 of my 3x3 tutorial. That algorithm to FIX CORNER POSITION is R' F R' B2 R F' R' B2 R2 That will CORRECT any CORNER problem you may have. If you are UNSURE of how to use that algorithm exactly, please see my step 6 of my 3x3 tutorial. Algorithms (IN ORDER): Interchanging the two parity cases you see before finishing the top face (from step 4 of 3x3 tutorial). If you have the 2x3 block, you want to hold it horizontally so that the 2x3 is all the way to the LEFT on the TOP face (see video)- Orienting Last Layer (OLL) F U R U' R' F' ________________________________________ _ Flipping over the top edge piece (the second PARITY case we see)Hold the flipped edge pair on the FRONT face in the TOP middle edge pair position (see video)- Orienting the Last Layer (OLL) - ONLY SEEN IN 4X4 and also 5x5 cubes (Rr)2 B2 U2 (Ll) U2 (Rr)' U2 (Rr) U2 F2 (Rr) F2 (Ll)' B2 (Rr)2 ________________________________________ _ Finishing the top face (3x3 tutorial step 5)- Orienting the Last Layer (OLL) R U R' U R U2 R' ________________________________________ _ Positioning Top Corners (3x3 tutorial step 6)- Permuting Last Layer (PLL)*IMPORTANT NOTE* THIS MOVE WILL SOLVE ANY CORNER PROBLEM YOU HAVE. If you are unsure of exactly how to use it, please see my step 6 of my 3x3 tutorial. You basically just have to find two corners which have the same color on the same face and set that face as your BACK If you don't have two corners next to each other that have the same color, then ANY face can be the BACK R' F R' B2 R F' R' B2 R2 ________________________________________ _ Last PARITY Case (flipping two opposite top layer edge pairs) - Permuting Last Layer (PLL)- ONLY SEEN IN 4X4 ALSO** r2 U2 r2 (Uu)2 r2 (Uu)2 U2 ________________________________________ _ Allan (Fixing the top layer edges - might not need to perform this move, 3x3 tutorial step 7)- Permuting Last Layer (PLL) L2 U' B F' L2 B' F U' L2 Tags: 4x4, 4x4x4, algorithm, beginners, cube, edge, errors, how, method, parity, revenge, rubik's, rubiks, rubix, solve, solving, to, tutorial, yt:quality=high 1 Downloads - Last from: http://downthisvideo.com/ (Your Blog here!)
[View \| Download]	How to Solve a Rubik's Cube - Step 1 - White Cross By RobH0629 In my tutorial, I will teach you how to solve a Rubik's Cube (regular 3x3)using 7 steps, which I explain in detail. My videos are longer than others you may find, but I feel that by spending more time with you for each step, you will understand it better than if I rush through it like those other videos. Although my videos are longer, it will pay off in the shorter amount of time you spend solving your cube. Other methods tend to use repetitive moves, not letting you understand how the cube works very well and wasting too much time and too many moves. I taught quite a few people this method in college, and also family members and friends who were able to solve it relatively quickly once they understood the method. Once you have memorized the algorithms and also understand the method I use, you can solve the cube in ABOUT 1-2 MINUTES WITH PRACTICE. Go here to see my Rubiks.com page with links to ALL my tutorials!! http://www.rubiks.com/Academy/3x3%204... This is the first step of the Tutorial for solving the cube. THE SECOND STEP IS ON MY CHANNEL PLAYLIST AND ALSO IN THE VIDEO RESPONSES SECTION OF THIS VIDEO. Link for Step 2: http://www.youtube.com/watch?v=aOkcgD... Check out this video of a 7 YEAR OLD who solved the cube in under 3 minutes using my tutorial! http://www.youtube.com/watch?v=_6dEUb... It involves first placing four white edge pieces around the yellow center piece. You must then match each individual edge piece with its side color and flip it until it is matched with both the white and side colors. *If you are HAVING DIFFICULTY getting the four white edge pieces around the yellow center, please SEE MY Step 1 b video, which gives further examples which should prove to be useful and give extra help. Also, please do not ever hesitate to ask me ANY questions at all about the cube or if you have any comments or problems. I am ALWAYS glad to help. If you are using this method, I can GUARANTEE that I can explain and help you with anything you need to know as long as you provide me the information about your cube. Send long questions to my inbox and I will try to get back to you A.S.A.P. THANK YOU FOR WATCHING! I would like to thank Lars Petrus and also Tyson Mao along with Jessica Fridrich for allowing me to visualize the cube in a totally new way. My method basically incorporates strategies and techniques in both Tyson Mao's and also Lars Petrus' methods, making my method unique in itself. My method has been able to help numerous people solve their cubes, along with some family members and personal friends of mine, so I know it can work for you too! Any questions, please don't hesitate to inquire or leave comments on any steps which may have given you trouble. Thanks again for watching my tutorial on How to Solve a Rubik's Cube!! how to solve do a rubik's cube rubiks rubix rubics cube 3x3 tutorial rubik's help easily step by speed speedsolve solving unscramble fix learn simple easy easiest quick lesson cross fridrich petrus 3x3x3 4x4 4x4x 5x5x5 5x5 revenge professor method algorithm beginners solution walk through guide blindfolded blindsolve feet world record competition BLD F2L OLL PLL Tags: 3x3, algorithm, by, cube, easily, easy, how, learn, lesson, method, rubics, rubik's, rubiks, rubix, solu..., solve, solving, step, to, tutorial, yt:quality=high 1 Downloads - Last from: http://downthisvideo.com/ (Your Blog here!)
[View \| Download]	Introducing the Pololu 3pi Robot By BenPololu http://www.pololu.com/catalog/product... The Pololu 3pi Robot is a complete, high performance, mobile platform. It excels at line following and maze solving. 3pi Robot Features: - ATmega168 microcontroller programmable in C and C++ on Windows, Linux, and Mac operating systems (Mac support is limited) - Works with several free programming environments such as AVR Studio, WinAVR, and Arduino-0011 - Five infrared reflectance line sensors - A unique power system that runs the motors at a constant 9.25 Volts even as batteries run down - Top speed of 1 m/s - Pololu AVR C/C++ Library to interface with the various components of the 3pi: http://www.pololu.com/docs/0J20 You can get started with programming the 3pi by using the sample line-following and maze-solving programs here: http://www.pololu.com/docs/0J21 You can order the 3pi at: http://www.pololu.com/catalog/product... Tags: 3pi, atmega168, avr, following, line, maze, orangutan, pololu, programming, robot, solving 1 Downloads - Last from: http://downthisvideo.com/ (Your Blog here!)
[View \| Download]	How To Solve a 6x6x6 V-Cube 6 - Part 3 - Edge Pairing By RobH0629 Link to Part 4 - Parity Errors and Final Solve as 3x3 http://www.youtube.com/watch?v=hp1afu... This Part 3 will cover the method for solving the edge pieces of the 6x6x6 V-Cube 6. I will teach a type of beginner method, which works by starting from the inside edges and working your way out pairing one edge at a time. I believe it is easier and more intuitive for the beginner to visualize the cube edges as a 4x4 and then a 5x5. Pairing the inner edges of the 6x6 cube is the same exact concept as solving the edge pieces of a 4x4 cube. Once you have paired as many edges as you can, you will either have all 12 edge pairs complete, or you will have 2 edge pairs left. If two pairs are left, this indicates you have a parity error. The algorithm for fixing the inner edge parity error is: 3d R F' U R' F 3d' Once you have paired all the inner edges and fixed parity, you will have effectively reduced the 6x6 edges to 5x5 edges. You can therefore pair up the remaining edges as you would on a 5x5 cube. There are 3 main types of last edge pair cases I go over in the video. These are all equivalent cases to the 5x5 cube last edges and can be solved similarly. The first edge parity case is one where you have a flipped inner edge group. To fix this case, we will place this group on the top layer directly in front of you. We then perform the following algorithm. r2 B2 U2 l U2 r' U2 r U2 F2 r F2 l' B2 r2 The second type of parity error is one where we have two outer wing edges which are switched. To fix this case, we must first arrange the edge groups so that the two outer wing edges which need to be switched are on the same layer. We then place these edge groups on the top face and situate the outer wing edges on the right side. Then we perform the following algorithm: l' U2 l' U2 F2 l' F2 r U2 r' U2 l2 The last type of edge case is not a parity error, however, can be solved easily using the parity algorithm for solving 4x4 edges, and also the inner edges of the 6x6 cube. We must first arrange the triple edge and the last edge that needs to go next to it so that they have the same color on the front face. We must then place the single outer edge piece so that it is on the top. In the video, I explain the algorithm when the single edge piece is on the upper right. The algorithm to fix this case is: d R F' U R' F d' If you arrange the edges and the single outer edge piece is on the upper left, then you can perform this algorithm. d' L' F U' L F' d Once all edges have been paired and all parity errors fixed, the cube is solved just like a 3x3 cube. My Part 4 will cover how to both visualize the cube as a 3x3 and how to fix the remaining parity errors that occur while solving the cube as a 3x3. Tags: 6x6, 6x6x6, algorithm, cube, edge, edges, errors, how, method, pairing, parity, rubik's, rubiks, rubix, solve, solving, the, to, tutorial, v-cube, vcube, ver... 1 Downloads - Last from: http://downthisvideo.com/ (Your Blog here!)
[View \| Download]	How to Solve a 6x6x6 V-Cube 6 - Part 2 - Finishing Centers By RobH0629 This video explains how to position and orient the remaining 4 centers. The first 2 centers I place are the Red and Blue centers, which must be oriented properly. Red/Black/Blue must have a clockwise orientation. Link to PART 3: http://www.youtube.com/watch?v=8flc94... Next I go on to place the last 2 centers. If you decide to SKIP TO THIS PART, you can fast forward to around 5:15. I explain how to: 1) Try to keep on forming 1x4 blocks and join them together 2) If you cannot create any more 1x4 blocks, you can "kick out" pieces (1x4 blocks) in order to get as many center pieces onto their proper side. 3) Use the center switching algorithm. Because the center pieces can be on different layers, I find that memorizing the algorithm as a sentence is easier. Sentence: Down Over Down Over Up Over Up Over We must position the IDENTICAL pieces we want to switch in the same RELATIVE POSITION. I generally prefer to place them in the upper left of the 4x4 center. Tags: 6x6, 6x6x6, algorithm, centers, cube, how, last, method, parity, rubik, rubik's, rubix, solve, solving, to, v-cube, vcube, yt:quality=high 1 Downloads - Last from: http://downthisvideo.com/ (Your Blog here!)
[View \| Download]	4x4x4基本解法教學 PART2-組邊 By rubiksfat1108 is my blog http://www.wretch.cc/blog/luttlefat if you can't understand , you can ask in it 4x4x4基本教學part-1 http://www.youtube.com/watch?v=C9W0Gm... 4x4x4基本教學part-2 http://www.youtube.com/watch?v=f0F2G6... 4x4x4基本教學part-3 http://www.youtube.com/watch?v=9SRZ6o... Tags: 2x2x2, 3x3x3, 4x4x4, 5x5x..., cube, method, professor, revenge, rubic, rubik, rubik's, rubikfat, rubiksfat, rubix, solution, solve, solving, speedcubing, v-cube 1 Downloads - Last from: (Your Blog here!)
[View \| Download]	V-CUBE 6x6x6: 3:19.72 By nakaji1084 A good solve also :) Tags: 2x2x2, 3x3x3, 4x4x4, 5x5x5..., algorithm, cube, how, method, professor, revenge, rubic, rubik, rubik's, rubix, solution, solve, solving, speedcubing, to, v-cube 1 Downloads - Last from: (Your Blog here!)

[View \| Download]	Lecture - 27 Problem Solving Session on Discrete Time System By nptelhrd Lecture Series on Digital Signal processing by Prof. S. C. Dutta Roy, Department of Electrical Engineering, IIT Delhi. For more Courses visit http://nptel.iitm.ac.in Tags: discrete, on, problem, session, solving, system, time 1 Downloads - Last from: http://downthisvideo.com/tag/rock (Your Blog here!)
[View \| Download]	Lecture - 22 Problem Solving Session: FT,DFT, & Z Transforms By nptelhrd Lecture Series on Digital Signal processing by Prof. S. C. Dutta Roy, Department of Electrical Engineering, IIT Delhi. For more Courses visit http://nptel.iitm.ac.in Tags: dft, ft, problem, session:, solving, transfo 1 Downloads - Last from: http://downthisvideo.com/tag/rock (Your Blog here!)
[View \| Download]	Lecture - 21 Problem Solving Session: FT, DFT,& Z Transforms By nptelhrd Lecture Series on Digital Signal processing by Prof. S. C. Dutta Roy, Department of Electrical Engineering, IIT Delhi. For more Courses visit http://nptel.iitm.ac.in Tags: dft, ft, problem, session:, solving, transforms 1 Downloads - Last from: http://downthisvideo.com/tag/rock (Your Blog here!)
[View \| Download]	How To Solve a 4x4x4 Rubik's Cube - Step 2 - Edge Pairing By RobH0629 Link to Step 3 - Parity Errors and Final Solve http://www.youtube.com/watch?v=OUU22J... This is a tutorial on how to pair the edges of the 4x4 to eventually convert the 4x4 into what resembles a mixed up 3x3. We will have to know how to position edges opposite from one another and with switched orientations (colors on the same face). The algorithm we will use for this step is: (Dd) R F' U R' F (Dd)' NOTE In my video, I was a little ambiguous/unclear on how to position the last two pairs of edge pieces before performing the above algorithm. When I said we "need the same color on the same face".. I meant to say "both identical pairs of edges should have the same color on the same face as its complementary piece and be situated in the same layer as well".. I believe that the example in the cube cleared it up, but I just wanted to put it here too in case someone actually reads all this :-) This algorithm will be used to fix the remaining 2 pairs of edges. You may not have to even use this algorithm depending on how you match the last pairs of edges. IF YOU FIND THIS TUTORIAL HELPFUL PLEASE COMMENT. I WOULD LIKE TO KNOW IF PEOPLE FOUND THE VIDEO HELPFUL. Tags: 4x4, 4x4x4, beginners, cube, edge, edges, how, method, pairing, revenge, rubik's, rubiks, rubix, solve, solving, to, tutorial, yt:quality=high 1 Downloads - Last from: http://downthisvideo.com/ (Your Blog here!)
[View \| Download]	Rubik's Cube One-handed: 14.56 seconds World Record Yu Nakajima By nakaji1084 My website: http://www.cutex.info/ (You can learn how to solve the Rubik's cube) I am 3rd place in the World at single record(8.72 seconds). And average record is 1st place(11.28 seconds World Record) Please see this video: http://www.youtube.com/watch?v=h6GnxK... and this page: http://www.worldcubeassociation.org/r... (World Cube Association official results) This is former One-handed World Record. Average of 5: 11.31 seconds http://www.youtube.com/watch?v=yo5_1W... 6.57 seconds solve http://www.youtube.com/watch?v=jI_zjW... --------- Tokyo Open 2008 One-handed 3rd solve YEEEEEEEEEEES!!!! But, this was a pretty easy OLL(Anti sune) and a PLL skip. So, THE LUCKY SOLVE ;) Tags: 2x2x2, 3x3x3, 4x4x4, 5x5x5..., algorithm, cube, how, method, professor, revenge, rubic, rubik, rubik's, rubix, solution, solve, solving, speedcubing, to, v-cube 1 Downloads - Last from: (Your Blog here!)
[View \| Download]	Rubik's Cube: 7.85 seconds By nakaji1084 My website: http://www.cutex.info/ (You can learn how to solve the Rubik's cube) I am 3rd place in the World at single record(8.72 seconds). And average record is 1st place(11.28 seconds World Record) Please see this video: http://www.youtube.com/watch?v=h6GnxK... and this page: http://www.worldcubeassociation.org/r... (World Cube Association official results) So, 7.85 is good. Please see my other videos if you think I am saying the lie. Average of 5: 11.31 seconds http://www.youtube.com/watch?v=yo5_1W... 6.57 seconds solve http://www.youtube.com/watch?v=jI_zjW... --------- 7.85秒でルービックキューブ完成させています。 This is full step. Tags: 2x2x2, 3x3x3, 4x4x4, 5x5x5..., algorithm, cube, how, method, professor, revenge, rubic, rubik, rubik's, rubix, solution, solve, solving, speedcubing, to, v-cube 1 Downloads - Last from: (Your Blog here!)
[View \| Download]	Rubik's Cube: 6.57 seconds By nakaji1084 My website: http://www.cutex.info/ (You can learn how to solve the Rubik's cube) I am 3rd place in the World at single record(8.72 seconds). And average record is 1st place(11.28 seconds World Record) Please see this video: http://www.youtube.com/watch?v=h6GnxK... and this page: http://www.worldcubeassociation.org/r... (World Cube Association official results) 6.57 is very good. Please see my other videos if you think I am saying the lie. Average of 5: 11.31 seconds http://www.youtube.com/watch?v=yo5_1W... --------- Scramble: D' B' L R B2 U2 L' R2 U2 B' D U B' D' U L' D U L' R B2 L2 U' R2 D' PLL skip. Cube: Rubik's DIY Tags: 2x2x2, 3x3x3, 4x4x4, 5x5x5..., algorithm, cube, how, method, professor, revenge, rubic, rubik, rubik's, rubix, solution, solve, solving, speedcubing, to, v-cube 1 Downloads - Last from: (Your Blog here!)
[View \| Download]	Rubik's 2x2+3x3+4x4+5x5+6x6+7x7: 9:53.65 By nakaji1084 Not PB.(PB is 9:36.49) But sub10 :) 2x2x2: East Sheen 3x3x3: Rubik's DIY 4x4x4: East Sheen 5x5x5: V-CUBE 6x6x6: V-CUBE 7x7x7: V-CUBE Tags: 2x2x2, 3x3x3, 4x4x4, 5x5x5..., algorithm, cube, how, method, professor, revenge, rubic, rubik, rubik's, rubix, solution, solve, solving, speedcubing, to, v-cube 1 Downloads - Last from: (Your Blog here!)
[View \| Download]	Megaminx: 57.56 seconds By nakaji1084 Not PB.(PB is 56.12. PB average is 1:04.24.) But good one. Tags: 2x2x2, 3x3x3, 4x4x4, 5x5x5..., algorithm, cube, how, method, professor, revenge, rubic, rubik, rubik's, rubix, solution, solve, solving, speedcubing, to, v-cube 1 Downloads - Last from: (Your Blog here!)
[View \| Download]	Lec 11 \| MIT 6.00 Introduction to Computer Science and Programming, Fall 2008 By MIT Lecture 11: Testing and debugging Instructors: Prof. Eric Grimson, Prof. John Guttag View the complete course at: http://ocw.mit.edu/6-00F08 License: Creative Commons BY-NC-SA More information at http://ocw.mit.edu/terms More courses at http://ocw.mit.edu Tags: ..., algorithms, binary, classes, computation, computer, inheritance, libraries, optimization, problem, programming, python, recursion, science, search, solving 1 Downloads - Last from: http://downthisvideo.com/ (Your Blog here!)
[View \| Download]	How to Solve a Rubik's Cube - Step 2 - Bottom White Corners By RobH0629 Link to Step 3: http://www.youtube.com/watch?v=wTPOqm... Do you NOT see the upside down T's? Other Problems? Then Watch this clarification video: http://www.youtube.com/watch?v=Zg5lKh... You must look on the top layer for corners which have a white color on the side (not top or bottom faces). Once you have found (or corrected using the R T180 Ri), you must match the other adjacent color to white (not on top again, but on the side) with its corresponding color diagonally. Now hold the center of the color that you just matched the white corner diagonally with and the white sticker should either be on the left or right face. Then you must perform the following moves: If white facing left, do Li Ti L (Li = left quarter turn counter-clockwise, L = left quarter turn clockwise), If white facing right, do R T Ri. You must do this for all four corners. IMPORTANT: When fixing corner pieces which have white facing UP,you must place it above the last empty corner space on bottom before doing the R T180 Ri or Li T180 L moves. IMPORTANT: you should NEVER be looking at the white color when you are placing it down, you should always be holding the center piece of the other color on the side with white while placing the corner piece. After you have placed all 4 BOTTOM WHITE CORNERS, you should see upside down COLOR T's on the 4 sides of the cube (not top or bottom). If you do NOT have these T's, that means you DID NOT match the corner pieces properly with its side color BEFORE using the 3 moves (up, towards you, down). Match the color on the ADJACENT SIDE of WHITE with its respective center. Then, while holding that center towards you, you must see whether the corner piece is now on the LEFT or RIGHT of that center piece. If on RIGHT, do R T Ri. If on LEFT, do the Li Ti L move. Watch the video for demonstration. ATTENTION: I WOULD LIKE PEOPLE TO LET ME KNOW WHETHER THEY WERE ABLE TO UNDERSTAND THIS STEP, SINCE IT IS A LITTLE TRICKY. I WAS THINKING OF POSTING AN ADDITIONAL VIDEO, SO PLEASE LEAVE FEEDBACK AND COMMENTS OR SEND ME A MESSAGE TO MY INBOX LETTING ME KNOW WHETHER AN ADDITIONAL VIDEO WOULD HELP YOU OUT. THANK YOU!!! how to solve a rubik's rubiks rubix rubics cube 3x3 tutorial rubik's help step by speed speedsolve solving unscramble fix learn simple easy easiest quick lesson cross fridrich petrus 3x3x3 4x4 5x5 revenge professor method algorithm beginners solution walk through guide Tags: 3x3, algorithm, by, cube, easy, how, learn, lesson, method, rubics, rubik's, rubiks, rubix, solve, solving, step, to, tutorial, yt:quality=high 1 Downloads - Last from: http://downthisvideo.com/ (Your Blog here!)
[View \| Download]	How To Solve A Rubik's Cube Easily By quicksilver7330 This video should offer a much more simplified way of solving that Rubik's Cube. Tags: cube, how, rubiks, rubix, solving, to 2 Downloads - Last from: http://downthisvideo.com/ (Your Blog here!)
[View \| Download]	How to Solve a 5x5x5 Rubik's Cube - Part 4 - Parity Errors By RobH0629 Looking to see how to solve the bigger Cubes as a 3x3? Click THIS LINK to see my Video Explaining it! http://www.youtube.com/watch?v=hp1afu... Unsure of how to solve a 3x3 Rubik's Cube? Check out my 3x3 Tutorial: http://www.youtube.com/watch?v=_yU-Ew... Goes over the 3 main types of parity errors you will encounter while pairing edge pieces on the 5x5 cube, the single edge flip, the edge swap, and checkerboard patterns. You will only need to know two algorithms in order to correct the parity errors, and you should already know the first one since it is also used to solve the 4x4 parity error. The first parity case I go over is one where we have one middle edge piece which is flipped. The algorithm I give you does not actually flip that single middle edge piece alone, but flips the two outer edge pieces over so they are the same orientation as the middle piece. The algorithm we use to correct this is the same algorithm we used in the 4x4 Tutorial for fixing the PLL parity error which occurred when solving the top cross. It is: (Rr)2 B2 U2 (Ll) U2 (Rr)' U2 (Rr) U2 F2 (Rr) F2 (Ll)' B2 (Rr)2 ________________________________________ The second type of parity case is one where we have two outer/wing edge pieces which have switched places. That algorithm we will be using is: (Ll)' U2 (Ll)' U2 F2 (Ll)' F2 (Rr) U2 (Rr)' U2 (Ll)2 ________________________________________ The third type of parity error is basically a mix of the first two errors we see and can be solved using both the above algorithms, and also an algorithm used to solve the 4x4 edge parity. HOWEVER, to keep to the simplicity of only having to memorize ONE additional algorithm and because this is a RARE case, we are only going to use the 2nd algorithm, which I call the "Edge Switcher". You can see the full set of algorithms at http://www.bigcubes.com/5x5x5/lastedg... Once you have fixed all parity errors, you will then find that you can solve the 5x5 cube EXACTLY like a 3x3. What does that mean? It means that the 3x3 center block is identical to the 3x3 cube center. Each 3x1 tredge piece is identical to ONE 3x3 cube edge pieces. Knowing that, you can go on to do the cross, place the middle edge pieces, and complete the top layer. If you would like a demonstration, I solve the 4x4 exactly like a 3x3 in my "How to Solve a 4x4 Rubik's Cube - Step 3 - Parity Errors" video on my channel playlist for the 4x4 cube. You can fast forward to 1:00 and watch from there for the demonstration. If you can solve a 4x4 cube like a 3x3, however, then you should have little to no difficulty in solving the 5x5 either. There are also NO LAST LAYER Parity errors to worry about when solving the 5x5 cube as a 3x3. It is ready to go! Hope you found this tutorial helpful! As always please leave comments and/or questions if you have them and rate the video if you enjoy. Thanks for watching! How-To How To Solve a the 5x5 5x5x5 Rubik's Rubiks Rubix Rubics Rubick Cube Parity Errors Edge Edges Pair Pairing Professor Tutorial beginners Lesson Fast Faster Quickly Intermediate Advanced speed speedsolve fast faster placing centers Method edge pairing tredges 3x3 3x3x3 4x4x4 4x4 fridrich petrus algorithm parity errors help Erno Rubik 2 3 4 5 6 gen quicker quickly advanced match case world record Tags: 5x5, 5x5x5, algorithm, cube, edge, errors, how, method, pairing, parity, professor, rubics, rubik's, rubix, solve, solving, to, tutorial, yt:quality=high 1 Downloads - Last from: http://downthisvideo.com/ (Your Blog here!)
[View \| Download]	How to Solve a 4x4x4 Rubik's Cube - Step 3 - Parity Errors By RobH0629 This step goes over the remaining 2 parity error cases (There are really 3 more, but we basically skip the corners parity error when using my Step 6 algorithm) that you may see when solving the 4x4 and also shows how to solve the 4x4 as a 3x3 cube thus allowing you to finish solving the cube completely! Link to Step 3b - A helpful Video for the 4x4: http://www.youtube.com/watch?v=y7DoZu... IMPORTANT* FOR MOST OF THE 3X3 ALGORITHMS, THERE ARE CERTAIN WAYS YOU MUST POSITION THE CUBE BEFORE YOU PERFORM THE ALGORITHM. I DO NOT GO INTO DETAIL ON HOW TO PERFORM THESE MOVES AND SO HAVE INCLUDED THE STEPS IN THE 3X3 TUTORIAL WHICH CORRESPOND TO THESE MOVES. PLEASE SEE MY 3X3 TUTORIAL FOR MORE DETAILS IF YOU ARE HAVING DIFFICULTY USING MY ALGORITHMS. THANK YOU! NOTE If you do NOT use my 3x3 method to solve the 4x4, you may come across a FOURTH "parity error". This error affects the position and/or orientation of the top CORNER pieces. ALL YOU HAVE TO DO is use the algorithm I have listed below and also demonstrated in THIS tutorial...the one that corresponds to STEP 6 of my 3x3 tutorial. That algorithm to FIX CORNER POSITION is R' F R' B2 R F' R' B2 R2 That will CORRECT any CORNER problem you may have. If you are UNSURE of how to use that algorithm exactly, please see my step 6 of my 3x3 tutorial. Algorithms (IN ORDER): Interchanging the two parity cases you see before finishing the top face (from step 4 of 3x3 tutorial). If you have the 2x3 block, you want to hold it horizontally so that the 2x3 is all the way to the LEFT on the TOP face (see video)- Orienting Last Layer (OLL) F U R U' R' F' ________________________________________ _ Flipping over the top edge piece (the second PARITY case we see)Hold the flipped edge pair on the FRONT face in the TOP middle edge pair position (see video)- Orienting the Last Layer (OLL) - ONLY SEEN IN 4X4 and also 5x5 cubes (Rr)2 B2 U2 (Ll) U2 (Rr)' U2 (Rr) U2 F2 (Rr) F2 (Ll)' B2 (Rr)2 ________________________________________ _ Finishing the top face (3x3 tutorial step 5)- Orienting the Last Layer (OLL) R U R' U R U2 R' ________________________________________ _ Positioning Top Corners (3x3 tutorial step 6)- Permuting Last Layer (PLL)*IMPORTANT NOTE* THIS MOVE WILL SOLVE ANY CORNER PROBLEM YOU HAVE. If you are unsure of exactly how to use it, please see my step 6 of my 3x3 tutorial. You basically just have to find two corners which have the same color on the same face and set that face as your BACK If you don't have two corners next to each other that have the same color, then ANY face can be the BACK R' F R' B2 R F' R' B2 R2 ________________________________________ _ Last PARITY Case (flipping two opposite top layer edge pairs) - Permuting Last Layer (PLL)- ONLY SEEN IN 4X4 ALSO** r2 U2 r2 (Uu)2 r2 (Uu)2 U2 ________________________________________ _ Allan (Fixing the top layer edges - might not need to perform this move, 3x3 tutorial step 7)- Permuting Last Layer (PLL) L2 U' B F' L2 B' F U' L2 Tags: 4x4, 4x4x4, algorithm, beginners, cube, edge, errors, how, method, parity, revenge, rubik's, rubiks, rubix, solve, solving, to, tutorial, yt:quality=high 1 Downloads - Last from: http://downthisvideo.com/ (Your Blog here!)
[View \| Download]	How to Solve a Rubik's Cube - Step 1 - White Cross By RobH0629 In my tutorial, I will teach you how to solve a Rubik's Cube (regular 3x3)using 7 steps, which I explain in detail. My videos are longer than others you may find, but I feel that by spending more time with you for each step, you will understand it better than if I rush through it like those other videos. Although my videos are longer, it will pay off in the shorter amount of time you spend solving your cube. Other methods tend to use repetitive moves, not letting you understand how the cube works very well and wasting too much time and too many moves. I taught quite a few people this method in college, and also family members and friends who were able to solve it relatively quickly once they understood the method. Once you have memorized the algorithms and also understand the method I use, you can solve the cube in ABOUT 1-2 MINUTES WITH PRACTICE. Go here to see my Rubiks.com page with links to ALL my tutorials!! http://www.rubiks.com/Academy/3x3%204... This is the first step of the Tutorial for solving the cube. THE SECOND STEP IS ON MY CHANNEL PLAYLIST AND ALSO IN THE VIDEO RESPONSES SECTION OF THIS VIDEO. Link for Step 2: http://www.youtube.com/watch?v=aOkcgD... Check out this video of a 7 YEAR OLD who solved the cube in under 3 minutes using my tutorial! http://www.youtube.com/watch?v=_6dEUb... It involves first placing four white edge pieces around the yellow center piece. You must then match each individual edge piece with its side color and flip it until it is matched with both the white and side colors. *If you are HAVING DIFFICULTY getting the four white edge pieces around the yellow center, please SEE MY Step 1 b video, which gives further examples which should prove to be useful and give extra help. Also, please do not ever hesitate to ask me ANY questions at all about the cube or if you have any comments or problems. I am ALWAYS glad to help. If you are using this method, I can GUARANTEE that I can explain and help you with anything you need to know as long as you provide me the information about your cube. Send long questions to my inbox and I will try to get back to you A.S.A.P. THANK YOU FOR WATCHING! I would like to thank Lars Petrus and also Tyson Mao along with Jessica Fridrich for allowing me to visualize the cube in a totally new way. My method basically incorporates strategies and techniques in both Tyson Mao's and also Lars Petrus' methods, making my method unique in itself. My method has been able to help numerous people solve their cubes, along with some family members and personal friends of mine, so I know it can work for you too! Any questions, please don't hesitate to inquire or leave comments on any steps which may have given you trouble. Thanks again for watching my tutorial on How to Solve a Rubik's Cube!! how to solve do a rubik's cube rubiks rubix rubics cube 3x3 tutorial rubik's help easily step by speed speedsolve solving unscramble fix learn simple easy easiest quick lesson cross fridrich petrus 3x3x3 4x4 4x4x 5x5x5 5x5 revenge professor method algorithm beginners solution walk through guide blindfolded blindsolve feet world record competition BLD F2L OLL PLL Tags: 3x3, algorithm, by, cube, easily, easy, how, learn, lesson, method, rubics, rubik's, rubiks, rubix, solu..., solve, solving, step, to, tutorial, yt:quality=high 1 Downloads - Last from: http://downthisvideo.com/ (Your Blog here!)
[View \| Download]	Introducing the Pololu 3pi Robot By BenPololu http://www.pololu.com/catalog/product... The Pololu 3pi Robot is a complete, high performance, mobile platform. It excels at line following and maze solving. 3pi Robot Features: - ATmega168 microcontroller programmable in C and C++ on Windows, Linux, and Mac operating systems (Mac support is limited) - Works with several free programming environments such as AVR Studio, WinAVR, and Arduino-0011 - Five infrared reflectance line sensors - A unique power system that runs the motors at a constant 9.25 Volts even as batteries run down - Top speed of 1 m/s - Pololu AVR C/C++ Library to interface with the various components of the 3pi: http://www.pololu.com/docs/0J20 You can get started with programming the 3pi by using the sample line-following and maze-solving programs here: http://www.pololu.com/docs/0J21 You can order the 3pi at: http://www.pololu.com/catalog/product... Tags: 3pi, atmega168, avr, following, line, maze, orangutan, pololu, programming, robot, solving 1 Downloads - Last from: http://downthisvideo.com/ (Your Blog here!)
[View \| Download]	How To Solve a 6x6x6 V-Cube 6 - Part 3 - Edge Pairing By RobH0629 Link to Part 4 - Parity Errors and Final Solve as 3x3 http://www.youtube.com/watch?v=hp1afu... This Part 3 will cover the method for solving the edge pieces of the 6x6x6 V-Cube 6. I will teach a type of beginner method, which works by starting from the inside edges and working your way out pairing one edge at a time. I believe it is easier and more intuitive for the beginner to visualize the cube edges as a 4x4 and then a 5x5. Pairing the inner edges of the 6x6 cube is the same exact concept as solving the edge pieces of a 4x4 cube. Once you have paired as many edges as you can, you will either have all 12 edge pairs complete, or you will have 2 edge pairs left. If two pairs are left, this indicates you have a parity error. The algorithm for fixing the inner edge parity error is: 3d R F' U R' F 3d' Once you have paired all the inner edges and fixed parity, you will have effectively reduced the 6x6 edges to 5x5 edges. You can therefore pair up the remaining edges as you would on a 5x5 cube. There are 3 main types of last edge pair cases I go over in the video. These are all equivalent cases to the 5x5 cube last edges and can be solved similarly. The first edge parity case is one where you have a flipped inner edge group. To fix this case, we will place this group on the top layer directly in front of you. We then perform the following algorithm. r2 B2 U2 l U2 r' U2 r U2 F2 r F2 l' B2 r2 The second type of parity error is one where we have two outer wing edges which are switched. To fix this case, we must first arrange the edge groups so that the two outer wing edges which need to be switched are on the same layer. We then place these edge groups on the top face and situate the outer wing edges on the right side. Then we perform the following algorithm: l' U2 l' U2 F2 l' F2 r U2 r' U2 l2 The last type of edge case is not a parity error, however, can be solved easily using the parity algorithm for solving 4x4 edges, and also the inner edges of the 6x6 cube. We must first arrange the triple edge and the last edge that needs to go next to it so that they have the same color on the front face. We must then place the single outer edge piece so that it is on the top. In the video, I explain the algorithm when the single edge piece is on the upper right. The algorithm to fix this case is: d R F' U R' F d' If you arrange the edges and the single outer edge piece is on the upper left, then you can perform this algorithm. d' L' F U' L F' d Once all edges have been paired and all parity errors fixed, the cube is solved just like a 3x3 cube. My Part 4 will cover how to both visualize the cube as a 3x3 and how to fix the remaining parity errors that occur while solving the cube as a 3x3. Tags: 6x6, 6x6x6, algorithm, cube, edge, edges, errors, how, method, pairing, parity, rubik's, rubiks, rubix, solve, solving, the, to, tutorial, v-cube, vcube, ver... 1 Downloads - Last from: http://downthisvideo.com/ (Your Blog here!)
[View \| Download]	How to Solve a 6x6x6 V-Cube 6 - Part 2 - Finishing Centers By RobH0629 This video explains how to position and orient the remaining 4 centers. The first 2 centers I place are the Red and Blue centers, which must be oriented properly. Red/Black/Blue must have a clockwise orientation. Link to PART 3: http://www.youtube.com/watch?v=8flc94... Next I go on to place the last 2 centers. If you decide to SKIP TO THIS PART, you can fast forward to around 5:15. I explain how to: 1) Try to keep on forming 1x4 blocks and join them together 2) If you cannot create any more 1x4 blocks, you can "kick out" pieces (1x4 blocks) in order to get as many center pieces onto their proper side. 3) Use the center switching algorithm. Because the center pieces can be on different layers, I find that memorizing the algorithm as a sentence is easier. Sentence: Down Over Down Over Up Over Up Over We must position the IDENTICAL pieces we want to switch in the same RELATIVE POSITION. I generally prefer to place them in the upper left of the 4x4 center. Tags: 6x6, 6x6x6, algorithm, centers, cube, how, last, method, parity, rubik, rubik's, rubix, solve, solving, to, v-cube, vcube, yt:quality=high 1 Downloads - Last from: http://downthisvideo.com/ (Your Blog here!)
[View \| Download]	4x4x4基本解法教學 PART2-組邊 By rubiksfat1108 is my blog http://www.wretch.cc/blog/luttlefat if you can't understand , you can ask in it 4x4x4基本教學part-1 http://www.youtube.com/watch?v=C9W0Gm... 4x4x4基本教學part-2 http://www.youtube.com/watch?v=f0F2G6... 4x4x4基本教學part-3 http://www.youtube.com/watch?v=9SRZ6o... Tags: 2x2x2, 3x3x3, 4x4x4, 5x5x..., cube, method, professor, revenge, rubic, rubik, rubik's, rubikfat, rubiksfat, rubix, solution, solve, solving, speedcubing, v-cube 1 Downloads - Last from: (Your Blog here!)
[View \| Download]	V-CUBE 6x6x6: 3:19.72 By nakaji1084 A good solve also :) Tags: 2x2x2, 3x3x3, 4x4x4, 5x5x5..., algorithm, cube, how, method, professor, revenge, rubic, rubik, rubik's, rubix, solution, solve, solving, speedcubing, to, v-cube 1 Downloads - Last from: (Your Blog here!)