To be fair, it's quite easy once you memorize the 7 or so movements you use to solve each piece. I mean, it's impressive that she can do it at 3, but it's just a memorization thing with a bit of logic. Hardly an unbelievable achievement. Unless she'd never seen it in her life and was able to figure it out on her own.
Also, she doesn't really <i>look</i> 3 years old. All the high-chair and stuff seems almost too overdone.
Kouji_SanSr. Hινε UÏкεεÏεг - EUPT DeputyThe NetherlandsJoin Date: 2003-05-13Member: 16271Members, NS2 Playtester, Squad Five Blue
edited April 2007
<!--quoteo(post=1620850:date=Apr 14 2007, 05:03 AM:name=Xyth)--><div class='quotetop'>QUOTE(Xyth @ Apr 14 2007, 05:03 AM) [snapback]1620850[/snapback]</div><div class='quotemain'><!--quotec--> Also, she doesn't really <i>look</i> 3 years old. All the high-chair and stuff seems almost too overdone. <!--QuoteEnd--></div><!--QuoteEEnd-->
Isn't everything from Japan though? <img src="style_emoticons/<#EMO_DIR#>/biggrin-fix.gif" style="vertical-align:middle" emoid=":D" border="0" alt="biggrin-fix.gif" />
On the other hand, she might be a genetically enhanced super midget!
I've never bothered to learn how to rubix cube. Like any other game though, it's just an issue of memorizing and understanding the strategies. If you play it alot you'll figure it out eventually, but even better if you are taught, which is probably the case here.
Rubix cube has nothing to do with intelligence. It is a simple algorhythm that has to be executed as fast as possible!
Or in other words: A trained monkey could do it.
In even more different words: This is even worse than the 3 year olds beeing sent to junior pegeants by their parents <img src="style_emoticons/<#EMO_DIR#>/confused-fix.gif" style="vertical-align:middle" emoid="???" border="0" alt="confused-fix.gif" />
<a href="http://www.rubiks.com/lvl3/index_lvl3.cfm?lan=eng&lvl1=inform&lvl2=medrel&lvl3=histry" target="_blank">History of Rubiks Cube</a>, for anyone who's interested,
<!--quoteo--><div class='quotetop'>QUOTE</div><div class='quotemain'><!--quotec--><b>BRIEF HISTORY OF THE CUBE</b>
Every invention has an official birth date. For the Cube this date is 1974 when the first working prototype came into being and a patent application was drafted. The place was Budapest, the capital of Hungary. The inventor's name is now a household word. At the time, Erno Rubik was a lecturer in the Department of Interior Design at the Academy of Applied Arts and Crafts in Budapest.
Although 1974 marks the inauguration of the Cube, the processes that led to the invention began a few years earlier, nor was the identity of the inventor a fortuitous accident. Erno Rubik had a passionate interest in geometry, in the study of 3D forms, in construction and in exploring the hidden possibilities of combinations of forms and material in theory and in practice.
In the course of his teaching, Erno Rubik preferred to communicate his ideas by the use of actual models, made from paper, cardboard, wood or plastic, challenging his students to experiment by manipulating clearly constructed and easily interpreted forms. It was the realization that even the simplest elements, cleverly duplicated and manipulated, yield an abundance of multiple forms that was the first step on the long road that led finally to the Cube. . Erno had applied for a Hungarian patent for the Magic Cube in 1975, the first test batches were notproduced until late 1977.
Although possibly the most original of all invented puzzles, the Cube was not created in a vacuum. Its classical antecedents are great puzzles in their own right. The Tangram, originating from ancient China, merely consists of 5 triangles, a square and a parallelogram, simple elements that yield a multitude of interesting figures. The Pentomino, invented by Solomon W Golomb, has 12 different elements, each one made up of five squares joined together, displaying all the possible configurations of the five combined squares. Pentomino poses the fascinating geometric problem of constructing various rectangles. Piet Hein's Soma Cube is, in a sense, a three dimensional version of Pentominos. It resembles Rubik's Cube both in shape and in the large number of ways its seven elements can be assembled into a 3x3x3 cube. Finally, there is Sam Loyd's well known 15 puzzle, with it's numbered tiles locked together yet moving separately, so that by pushing them about they can be set in sequential order and scrambled at will. Viewing these puzzles places Rubik's Cube in a context and highlights just what a breakthrough creation the Cube really is.
What Erno Rubik's set out to do was create a three dimensional object, of high aesthetic value, which was not only richer in configuration variations and more of a mental challenge than any puzzle in existence, but would also continue to be ONE, SELF-CONTAINED WHOLE, throughout its manifold transformations.
This objective seemed at first as impossible to achieve as the 3-axial rotation of the Cube appears on first encounter. After conceiving the idea of the 3x3x3 Cube, Erno Rubik first tried to hold together the elements of a simpler, 2x2x2 cube, by means of an elastic rubber construction that threaded its way through all 8 elements. Even at this simple level it soon became clear that such a device could not work. The alternatives then available, such as magnets and the obvious tongue and grooves system, could not cope with the complexity of the different junctions and movements that each element required. Erno Rubik realized that only a totally original concept could provide a satisfactory solution.
The inspiration came on a lazy, summer day as he was watching the Danube flow by. Rubik's eye was attracted by some pebbles, whose sharp edges have been rubbed and smoothed away in the course of time bringing into being rounded shapes of great but simple beauty. The interior of the Cube elements had to have the same rounded architecture. The brilliant interior mechanism, which is basically cylindrical, took some time to reach its final form. For ease of manipulation, the balance between tightness and looseness had to be just right, tolerances had to be exact. Finally, the 54 outer surfaces of the individual elements were given their colors. Lots of different decorative patterns, with numbers and symbols as well as diverse color combinations were tried, but none of them worked nearly as well as the six simple but distinct colors, each one unifying and differentiating one single face of the Cube.
When the Cube was complete, Erno Rubik demonstrated it to his students and let some of his friends play with it. The effect was instantaneous. Once somebody laid his hands on the Cube it was difficult to get it back!
The compulsive interest of friends and students in the Cube caught its creator completely by surprise and it was months before any thought was given to the possibility of producing it on an industrial scale.
Eventually a manufacturer took on the job of tooling up for mass production and making the puzzle available to the public at large. Given the inner complexity of the Cube, and the then prevailing economic conditions in communist Hungary, this was by no means an easy undertaking. It is to the credit of the two men at the helm of the toy production firm of Politechnika, President Lehel Takacz and Chief Engineer Ferencz Manczur that they at once perceived enough merit in the Cube to accept this task. The process of turning the hand made object into thousands of low cost, mass manufactured units was slow. It took the best part of three years, but at last, towards the end of 1977 the first Cubes appeared on the shelves of the Budapest toyshops.
During 1978, without any promotion or publicity, the Cube began very slowly to make its way through the hands of fascinated youths into homes, playgrounds and schools. Word of mouth spread the news and by the beginning of 1979. There was growing interest in the Magic Cube throughout Hungary. Some Western World academics were also most interested in it. In September, a deal was signed with Ideal Toys to bring the Magic Cube to the West.
With the country being both physically and culturally behind the iron curtain at the time, the growing popularity of the Cube did not cross over to the West for quite some time. Not surprisingly, two men of Hungarian origin who had established their lives in the West built the bridge, which eventually enabled the Cube to cross the divide.
Dr Tibor Laczi, born in Budapest, educated in Vienna and employed by a major German computer manufacturer "discovered" the Cube on one of his frequent business trips to Hungary. He fell in love with it, and sensing its potential consumer appeal, brought it to the Nuremberg Toy Fair in February 1979 in the hope of finding a potential German toy distributor. He did not meet with a great deal of success but he did stumble across an individual who at that point of the Cube's history was destined to make a crucial difference.
Tom Kremer, a successful toy and game inventor himself, whose mother language was also Hungarian, ran at the time his own marketing and licensing company. Seven Towns Ltd., based in London, was widely respected throughout the international toy industry as a product developer working not only with its own ideas but also representing professional inventors from all over the world.
The two men made a pact, there and then, to translate the Hungarian success of the Cube onto the world stage. Dr Ladzi headed back to Hungary to pave the way with the prevailing Hungarian bureaucracy whilst Tom Kremer set off on a world tour of toy manufacturers. He was convinced that to realize the Cube's full commercial potential it had to have the marketing muscle, the promotional power and distribution network of a major international company. Unfortunately he found none of the leading players in the field shared his enthusiasm. Although impressed by the Cube, the general view within the industry estimated its prospects to be poor. Its "faults" were numerous: Too difficult and expensive to manufacture, impossible to demonstrate its fascination on TV, too abstract, too cerebral, too quiet, a challenge for the esoteric academic mind rather than a puzzle meant for the young and the general public.
Undeterred by this universal rejection, and spurred on by his firm belief in the exceptional quality of the toy, Tom Kremer, now armed with a convincing marketing plan, continued his search for a viable partner. After many disappointments, he succeeded in persuading Stewart Sims, Vice President of Marketing of the Ideal Toy Corporation, to come to Hungary, to see with his own eyes the Cube in play. It was now September 1979, by which time the Cube had gained a sufficient degree of popularity to be seen occasionally in the street, on trams, in cafes, each time in the hands of someone turning and twisting it, completely absorbed. After five days of convoluted negotiations between a skeptical American capitalist and an obstinate communist organization largely ignorant of the operation of a free market, with Laczi and Kremer desperately holding the two sides together, an order for one million cubes was signed amidst much handshaking and great relief all round.
In the meanwhile, quite independently of these developments, David Singmaster, an English mathematician, became deeply interested in the theoretical problems and ramifications raised by the Cube in his own field. He wrote a newspaper article in June 1979, the first one to appear outside Hungary, which brought the Cube to the attention of academic circles world wide and led indirectly to another milestone in its history: an article in Scientific American, with a cover picture, by Douglas Hotstadter an acknowledged authority in the field of Recreational Mathematics.
Apart from a small seepage across the Hungarian borders, the Cube made its international debut at the Toy Fairs of London, Paris, Nuremberg and New York in January/February, 1980. With Erno Rubik demonstrating his own creation, the Cube made an immediate impact. The trade buyers were impressed, orders rolled in. There was just one problem: there were no Cubes! Western quality standards and packaging norms meant drastic changes in the Hungarian manufacturing process. This, as with any change under a communist in regime, was slow in coming. Communication between New York and Budapest, given the linguistic and cultural differences, despite the frequent interventions of Tom Kremer, were not easy. The new Cube was easier to manipulate. Ideal Toys renamed it Rubik's Cube. The first Rubik's Cubes were exported from Hungary in May 1980.
Erno Rubik has not changed much over the years. Working closely with Seven Towns, he is still deeply engaged in creating new games and puzzles, and remains one of the principal beneficiaries of what proved to be a spectacularly successful invention.<!--QuoteEnd--></div><!--QuoteEEnd--> I tried (and solved) it when it first came out, which looks like 1980 or so.
Comments
Also, she doesn't really <i>look</i> 3 years old. All the high-chair and stuff seems almost too overdone.
Also, she doesn't really <i>look</i> 3 years old. All the high-chair and stuff seems almost too overdone.
<!--QuoteEnd--></div><!--QuoteEEnd-->
Isn't everything from Japan though? <img src="style_emoticons/<#EMO_DIR#>/biggrin-fix.gif" style="vertical-align:middle" emoid=":D" border="0" alt="biggrin-fix.gif" />
On the other hand, she might be a genetically enhanced super midget!
I've never solved my Rubik's Cube, so good for her.
So cute when she change the cube so fast at the end.
Impressive for a 3 year old kid.
It is a simple algorhythm that has to be executed as fast as possible!
Or in other words: A trained monkey could do it.
In even more different words: This is even worse than the 3 year olds beeing sent to junior pegeants by their parents <img src="style_emoticons/<#EMO_DIR#>/confused-fix.gif" style="vertical-align:middle" emoid="???" border="0" alt="confused-fix.gif" />
<!--quoteo--><div class='quotetop'>QUOTE</div><div class='quotemain'><!--quotec--><b>BRIEF HISTORY OF THE CUBE</b>
Every invention has an official birth date. For the Cube this date is 1974 when the first working prototype came into being and a patent application was drafted. The place was Budapest, the capital of Hungary. The inventor's name is now a household word. At the time, Erno Rubik was a lecturer in the Department of Interior Design at the Academy of Applied Arts and Crafts in Budapest.
Although 1974 marks the inauguration of the Cube, the processes that led to the invention began a few years earlier, nor was the identity of the inventor a fortuitous accident. Erno Rubik had a passionate interest in geometry, in the study of 3D forms, in construction and in exploring the hidden possibilities of combinations of forms and material in theory and in practice.
In the course of his teaching, Erno Rubik preferred to communicate his ideas by the use of actual models, made from paper, cardboard, wood or plastic, challenging his students to experiment by manipulating clearly constructed and easily interpreted forms. It was the realization that even the simplest elements, cleverly duplicated and manipulated, yield an abundance of multiple forms that was the first step on the long road that led finally to the Cube. . Erno had applied for a
Hungarian patent for the Magic Cube in 1975, the first test batches were notproduced until late 1977.
Although possibly the most original of all invented puzzles, the Cube was not created in a vacuum. Its classical antecedents are great puzzles in their own right. The Tangram, originating from ancient China, merely consists of 5 triangles, a square and a parallelogram, simple elements that yield a multitude of interesting figures. The Pentomino, invented by Solomon W Golomb, has 12 different elements, each one made up of five squares joined together, displaying all the possible configurations of the five combined squares. Pentomino poses the fascinating geometric problem of constructing various rectangles. Piet Hein's Soma Cube is, in a sense, a three dimensional version of Pentominos. It resembles Rubik's Cube both in shape and in the large number of ways its seven elements can be assembled into a 3x3x3 cube. Finally, there is Sam Loyd's well known 15 puzzle, with it's numbered tiles locked together yet moving separately, so that by pushing them about they can be set in sequential order and scrambled at will. Viewing these puzzles places Rubik's Cube in a context and highlights just what a breakthrough creation the Cube really is.
What Erno Rubik's set out to do was create a three dimensional object, of high aesthetic value, which was not only richer in configuration variations and more of a mental challenge than any puzzle in existence, but would also continue to be ONE, SELF-CONTAINED WHOLE, throughout its manifold transformations.
This objective seemed at first as impossible to achieve as the 3-axial rotation of the Cube appears on first encounter. After conceiving the idea of the 3x3x3 Cube, Erno Rubik first tried to hold together the elements of a simpler, 2x2x2 cube, by means of an elastic rubber construction that threaded its way through all 8 elements. Even at this simple level it soon became clear that such a device could not work. The alternatives then available, such as magnets and the obvious tongue and grooves system, could not cope with the complexity of the different junctions and movements that each element required. Erno Rubik realized that only a totally original concept could provide a satisfactory solution.
The inspiration came on a lazy, summer day as he was watching the Danube flow by. Rubik's eye was attracted by some pebbles, whose sharp edges have been rubbed and smoothed away in the course of time bringing into being rounded shapes of great but simple beauty. The interior of the Cube elements had to have the same rounded architecture. The brilliant interior mechanism, which is basically cylindrical, took some time to reach its final form. For ease of manipulation, the balance between tightness and looseness had to be just right, tolerances had to be exact. Finally, the 54 outer surfaces of the individual elements were given their colors. Lots of different decorative patterns, with numbers and symbols as well as diverse color combinations were tried, but none of them worked nearly as well as the six simple but distinct colors, each one unifying and differentiating one single face of the Cube.
When the Cube was complete, Erno Rubik demonstrated it to his students and let some of his friends play with it. The effect was instantaneous. Once somebody laid his hands on the Cube it was difficult to get it back!
The compulsive interest of friends and students in the Cube caught its creator completely by surprise and it was months before any thought was given to the possibility of producing it on an industrial scale.
Eventually a manufacturer took on the job of tooling up for mass production and making the puzzle available to the public at large. Given the inner complexity of the Cube, and the then prevailing economic conditions in communist Hungary, this was by no means an easy undertaking. It is to the credit of the two men at the helm of the toy production firm of Politechnika, President Lehel Takacz and Chief Engineer Ferencz Manczur that they at once perceived enough merit in the Cube to accept this task. The process of turning the hand made object into thousands of low cost, mass manufactured units was slow. It took the best part of three years, but at last, towards the end of 1977 the first Cubes appeared on the shelves of the Budapest toyshops.
During 1978, without any promotion or publicity, the Cube began very slowly to make its way through the hands of fascinated youths into homes, playgrounds and schools. Word of mouth spread the news and by the beginning of 1979. There was growing interest in the Magic Cube throughout Hungary. Some
Western World academics were also most interested in it. In September, a
deal was signed with Ideal Toys to bring the Magic Cube to the West.
With the country being both physically and culturally behind the iron curtain at the time, the growing popularity of the Cube did not cross over to the West for quite some time. Not surprisingly, two men of Hungarian origin who had established their lives in the West built the bridge, which eventually enabled the Cube to cross the divide.
Dr Tibor Laczi, born in Budapest, educated in Vienna and employed by a major German computer manufacturer "discovered" the Cube on one of his frequent business trips to Hungary. He fell in love with it, and sensing its potential consumer appeal, brought it to the Nuremberg Toy Fair in February 1979 in the hope of finding a potential German toy distributor. He did not meet with a great deal of success but he did stumble across an individual who at that point of the Cube's history was destined to make a crucial difference.
Tom Kremer, a successful toy and game inventor himself, whose mother language was also Hungarian, ran at the time his own marketing and licensing company. Seven Towns Ltd., based in London, was widely respected throughout the international toy industry as a product developer working not only with its own ideas but also representing professional inventors from all over the world.
The two men made a pact, there and then, to translate the Hungarian success of the Cube onto the world stage. Dr Ladzi headed back to Hungary to pave the way with the prevailing Hungarian bureaucracy whilst Tom Kremer set off on a world tour of toy manufacturers. He was convinced that to realize the Cube's full commercial potential it had to have the marketing muscle, the promotional power and distribution network of a major international company. Unfortunately he found none of the leading players in the field shared his enthusiasm. Although impressed by the Cube, the general view within the industry estimated its prospects to be poor. Its "faults" were numerous: Too difficult and expensive to manufacture, impossible to demonstrate its fascination on TV, too abstract, too cerebral, too quiet, a challenge for the esoteric academic mind rather than a puzzle meant for the young and the general public.
Undeterred by this universal rejection, and spurred on by his firm belief in the exceptional quality of the toy, Tom Kremer, now armed with a convincing marketing plan, continued his search for a viable partner. After many disappointments, he succeeded in persuading Stewart Sims, Vice President of Marketing of the Ideal Toy Corporation, to come to Hungary, to see with his own eyes the Cube in play. It was now September 1979, by which time the Cube had gained a sufficient degree of popularity to be seen occasionally in the street, on trams, in cafes, each time in the hands of someone turning and twisting it, completely absorbed. After five days of convoluted negotiations between a skeptical American capitalist and an obstinate communist organization largely ignorant of the operation of a free market, with Laczi and Kremer desperately holding the two sides together, an order for one million cubes was signed amidst much handshaking and great relief all round.
In the meanwhile, quite independently of these developments, David Singmaster, an English mathematician, became deeply interested in the theoretical problems and ramifications raised by the Cube in his own field. He wrote a newspaper article in June 1979, the first one to appear outside Hungary, which brought the Cube to the attention of academic circles world wide and led indirectly to another milestone in its history: an article in Scientific American, with a cover picture, by Douglas Hotstadter an acknowledged authority in the field of Recreational Mathematics.
Apart from a small seepage across the Hungarian borders, the Cube made its international debut at the Toy Fairs of London, Paris, Nuremberg and New York in January/February, 1980. With Erno Rubik demonstrating his own creation, the Cube made an immediate impact. The trade buyers were impressed, orders rolled in. There was just one problem: there were no Cubes! Western quality standards and packaging norms meant drastic changes in the Hungarian manufacturing process. This, as with any change under a communist in regime, was slow in coming. Communication between New York and Budapest, given the linguistic and cultural differences, despite the frequent interventions of Tom Kremer, were not easy. The new Cube was easier to manipulate. Ideal Toys renamed it
Rubik's Cube. The first Rubik's Cubes were exported from Hungary in May 1980.
Erno Rubik has not changed much over the years. Working closely with Seven Towns, he is still deeply engaged in creating new games and puzzles, and remains one of the principal beneficiaries of what proved to be a spectacularly successful invention.<!--QuoteEnd--></div><!--QuoteEEnd-->
I tried (and solved) it when it first came out, which looks like 1980 or so.
- cudos to the todler puzzle master though.
Isn't everything from Asia though? <img src="style_emoticons/<#EMO_DIR#>/biggrin-fix.gif" style="vertical-align:middle" emoid=":D" border="0" alt="biggrin-fix.gif" />
On the other hand, she might be a genetically enhanced super midget!
<!--QuoteEnd--></div><!--QuoteEEnd-->