Archive for the ‘genius’ Category

COMBINING THE UNRELATED INTO NEW IDEAS

combine ideas

 

Look at the figure below.combo1

When the lines at the left are combined to form the figure on the right, we can no longer perceive the original two patterns without great effort. Instead, we see a continuous wavy line running through a series of bars. Combining the lines creates a new pattern with new properties. The illustration verifies the seemingly obvious point that from a combination can emerge new properties that were not evident in either of the original lines.

It is the same with concepts and ideas. Gregory Murphy of the University of Illinois had people rate how true certain properties were of individual concepts and their combinations. One set of concepts consisted of the individual words “empty” and “store” and their combination “empty store.” Consider the property “losing money.” Like subjects in Murphy’s study, you probably recognize that losing money is typical of “empty stores,” but not of “stores” in general or of things that are “empty.”  Meaning changes when we combine concepts, and the more novel the combination, the more novel the new meaning. This is why genius is often marked by an interest in combining previously unrelated ideas, goods and services, making novel combinations more likely. Following is one technique of many that demonstrates how easy it is get ideas using combinations.

RANDOM OBJECTS. Select 20 objects at random. You can select any objects, objects at home, objects at work, or objects you might find walking down the street. Or you can imagine you are in a technologically-oriented science museum, walking through the Smithsonian Institute, or browsing in an electronic store and make a list of 20 objects that you would likely see. Make two lists of 10 objects each on the left and right sides of the paper (See example below). Pick one from the left and combine it with one on the right. When you find a promising new combination, refine and elaborate it into a new invention.combo2

In the example, the illustrated combinations yielded the following ideas:

∙         Combining bagel with slicer yields a bagel slicer with plastic sides designed to hold the bagel and prevent rotation when slicing.

∙         Bathtub and hammock combines into a baby tub with a simple hammock in the  tub with a headrest to hold the baby’s head securely, leaving the parent’s hands free to do the washing.

∙         Sunglasses and windows combine to form the idea of tinted house windows,  like tinted sunglasses,  designed to change colors with ultraviolet light to help keep the house cool.

∙         Suntan lotion and insect repellent combines to form a new product— one lotion that protects against both the sun and insects.

You can also try the inverse heuristic to generate ideas, which states that if an object performs one function, a new artifact might be realized by combining it with an object that performs the opposite function. The claw hammer is a good example. So is a pencil with an eraser. Can you create new objects from the list of random objects by combining the object with something that performs the opposite function. How about a small cap for tightly sealing a soda can that could be attached to the lever of the pop-top device?

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YOUR MOST IMPORTANT ASSET

To discover a good idea you have to generate many ideas. Out of quantity comes quality. It took Thomas Edison 50,000 experiments to invent the alkaline storage cell battery and 9,000 to perfect the light bulb. For every brilliant idea he had, there were countless duds. For instance, the horse-drawn contraption that would collect snow and ice in the winter and compress it into blocks that families could use in the summer as a refrigerant. Another dud was his perpetual cigar, which consisted of a hollow metal tube with a spring clip that moved the tobacco forward as it burned.

An important aspect of this Darwinian theory for creativity is that, in addition to quantity, you need some means of producing variation in your ideas. For this variation to be truly effective, it must be “blind.” To count as “blind,” the variations are shaped by random, chance, or unrelated factors. In nature, a gene pool totally lacking in variation would be unable to adapt to changing circumstances, with consequences that would be fatal to the species’ survival. In time the genetically encoded wisdom would convert to foolishness. A comparable process operates within us. Every individual has the ability to create ideas based on his or her existing patterns of thinking. These patterns follow a route ingrained in our youth as we were being taught to think. But without any provision for variations, ideas eventually stagnate and lose their adaptive advantages.

Typically, we think reproductively, that is, on the basis of similar problems encountered in the past. When confronted with problems, we fixate on something in the past that has worked before. We ask, “What have I been taught in life, education, or work on how to solve the problem?” Then we analytically select the most promising approach based on past experiences, excluding all other approaches. Then we work, within a clearly defined direction, toward the solution of the problem. In contrast, geniuses are willing to explore as many approaches as possible, including the least and most obvious. Geniuses delight in looking at problems in many different ways and in inventing unconventional approaches.

Last summer, I visited an old friend who served with me in the military. He’s now an engineer with a power company in the northwest and he described a problem that he and the other engineers in his company were trying to solve. Essentially, the problem was how to de-ice power lines during ice storms so they don’t collapse from the weight of the ice. The conventional approaches to the problem were proving to be very expensive and inefficient. I asked my friend to open a dictionary, close his eyes and point to a word. He pointed to the word “honey.” I then asked him to think of the attributes of “honey” and to force a connection between each attribute and the problem. One attribute he mentioned was that honey attracts bears. My friend laughed and said, “I got it. We can put a pot of honey on top the poles. The honey will attract bears and the bears will climb the poles to get the honey, causing the poles to vibrate and shake off the ice.” Suddenly, he stopped laughing and said, “By God, that’s it! The answer is vibration. Remember the downwash from helicopters in the service? The answer is to hover choppers over the lines and the downwash will vibrate the ice off the lines.” This proved to be the most efficient and economical solution to the problem.

The point is, that by introducing something “random” into his thinking, the engineer disturbed his conventional thinking patterns and he came up with an unconventional approach. In nature, a genetic mutation is a variation that’s created by a random or chance event which ignores the conventional wisdom contained in parental chromosomes. Nature then lets the process of natural selection decide which variations survive and thrive. An analogous process operates within geniuses. Creative geniuses produce a rich variety of original ideas and solutions because in addition to their conventional way of thinking, they’ll look for different ways to think about problems. They deliberately change the way they think by provoking different patterns which incorporate random, chance and unrelated factors into their thinking process. These different thinking patterns enable them to look at the same information as everyone else, but the genius will find something different.

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HOW EINSTEIN EXPLAINED HIS CREATIVE TALENT

Einstein summarized the value of using your imagination to fantasize best when he said “When I examine myself and my methods of thought, I come to the conclusion that the gift of fantasy has meant more to me than my talent for absorbing positive knowledge.”

Think of how Albert Einstein changed our understanding of time and space by fantasizing about people going to the center of time in order to freeze their lovers or their children in century-long embraces. This space he imagined is clearly reminiscent of a black hole, where, theoretically, gravity would stop time. Einstein also fantasized about a woman’s heart leaping and falling in love two weeks before she has met the man she loves, which lead him to the understanding of acausality, a feature of quantum mechanics. A caricature of special relativity (the relativistic idea that people in motion appear to age more slowly) is based on his fantasy of a world in which all the houses and offices are on wheels, constantly zooming around the streets (with advance collision-avoidance systems).

THOUGHT EXPERIMENT: Try to solve the following thought experiment before you read the paragraphs that follows it. The thought experiment is attributed to the German Gestalt psychologist Karl Dunker.

One morning, exactly at sunrise, a Buddhist monk began to climb a tall mountain. The narrow path, no more than a foot or two wide, spiraled around the mountain to a glittering temple at the summit. The monk ascended the path at a varying rate of speed, stopping many times along the way to rest and to eat the dried fruit he carried with him. He reached the temple shortly before sunset. After several days of fasting and meditation, he began his journey back along the same path, starting at sunrise and again walking at a varying speed with many stops along the way. His average speed descending was, of course, greater than his average climbing speed. Is there a spot along the path that the monk will occupy on both trips at precisely the same time of day?

If you try to logically reason this out or use a mathematical approach, you will conclude that it is unlikely for the monk to find himself on the same spot at the same time of day on two different occasions. Instead, visualize the monk walking up the hill, and at the same time imagine the same monk walking down the hill. The two figures must meet at some point in time regardless of their walking speed or how often they stop. Whether the monk descends in two days or three days makes no difference; it all comes out to the same thing.

Now it is, of course, impossible for the monk to duplicate himself and walk up the mountain and down the mountain at the same time. But in the visual image he does; and it is precisely this indifference to logic, this superimposition of one image over the other, that leads to the solution. The imaginative conception of the monk meeting himself blends the journeys up and down the mountain and superimposes one monk on the other at the meeting place.

Your brain is a dynamic system that evolves its patterns of activity rather than computes them like a computer. It thrives on the creative energy of feedback from experiences real or fictional. You can synthesize experience; literally create it in your own imagination. The human brain cannot tell the difference between an “actual” experience and a fantasy imagined vividly and in detail. This discovery is what enabled Albert Einstein to create his thought experiments with imaginary scenarios that led to his revolutionary ideas about space and time.

Imagination gives us the impertinence to imagine making the impossible possible. Einstein, for example, was able to imagine alternatives to the sacred Newtonian notion of absolute time, and discovered that time is relative to your state of motion. Think of the thousands of scientists who must have come close to Einstein’s insight but lacked the imagination to see it because of the accepted dogma that time is absolute, and who must have considered it impossible to contemplate any theory.

Einstein described his favorite creative thinking technique as “combinatory play” in a 1945 letter to his friend Jacque Hadamard as the essential feature in the way he thought. Our brains are conditioned to associate similar subjects but have great difficulty are forcing connections between two dissimilar and unrelated subjects or images that seem to have no associations. Our educated and practiced ability to associate similar concepts limits our ability to be creative (apples and oranges are fruit). We form ‘associative walls’ that makes us very efficient at finding common associations  but it discourages us from looking for connections between dissimilar subjects.

Overcoming these associative habits is probably one of the most important skills when it comes to creative and innovative thought. It is no coincidence that the most creative and innovative people through history are experts at forcing new connections between dissimilar subjects through combinatory play. I’ve traced the technique back to Leonardo da Vinci who wrote in his notebooks “It is not possible to think simultaneously of two subjects, no matter how dissimilar, without connections being formed.

EXAMPLE: CAN YOU GROW A BOOK? 

Following is an example of how I used the technique with a publisher who was looking for more innovative ways to publish books. The question I asked him to think about was “What is impossible to do in your industry, but if it were possible would change the nature of your business forever?”

The publisher kept a dream diary. He told me that when he had an interesting problem, he would write “key” words in a notebook by his bed before he went to sleep. When he awoke, the first thing he would do was to try to recall his dreams and record everything he could remember. Then he told me about a dream he had in the past that fascinated him.

He dreamed he was planting seeds in a large field. He nurtured the plants as they grew.  Each plant grew into a large cabbagelike head. When the plant ripened, the leaves unfolded revealing a book. Each plant produced a book. Excitedly, he raced from row to row opening each book. They were all different. Some were fiction, others were nonfiction, children’s books, coffee table books, dictionaries, biographies. He flipped through the books laughing and laughing. That was the answer to my question he said. It is impossible to grow books.

He and I discussed the meaning of the dream about growing books. We realized the impossibility of growing books but listed all the connections we could think of between growing plants and publishing books. One connection was that trees are planted and harvested for the manufacture of paper and paper is used to publish books.

Why not publish books that become trees? This would be a way to educate and inspire young readers about the need for ecologically responsible behavior. The idea the publisher decided to pursue is to publish storybooks for children about trees. The book can then be planted (planting instructions are included) and will grow back into a tree. The books will be handstitched, made from recycled acid-free paper and biodegradable inks and the cover is embedded with poplar tree seeds. Each copy comes with planting instructions. Readers are encouraged to plant and name their tree and to care for it as it grows. The marketing department plans to have the book displayed in bookshops, where it can be seen germinating by customers.

Stretching  your  imagination by trying to make impossible things possible with combinatory play between unrelated subjects makes it possible to create ideas you cannot get using your usual way of thinking.

………………………………………………………………………………………………………Michael Michalko is a renowned creativity expert whose books describe creative thinking techniques used by creative geniuses throughout history to get their breakthrough ideas. Thinkertoys: A Handbook of Creative Thinking Techniques; Cracking Creativity: The Secrets of Creative Genius; ThinkPak: A Brainstorming Card Deck and Creative Thinkering: Putting Your Imagination to Work. 

THE IMPORTANCE OF PERCEPTION AND PATTERN RECOGNITION SKILLS IN CREATIVE THINKING

NYC

Cognitive scientists understand the importance of perception and pattern recognition as a major component of creative thinking.  When you are committed and start to actively work on a problem that you are passionate about, you will start to notice more and more things that relate to what you are working on. With an infinite amount of stimuli constantly hitting our brains, we need the ability to filter that which is most relevant to us. And our mind is that filter. Often these connections can seem like coincidences, but cognitive scientists tell us it is simply that part of our brain that screens out information we are not interested in and focuses on the things that we can use. These connections give you different ways to look at information and different ways to focus on it.

George de Mestral was inspired to improve the zipper. He thought about the essence of zippers which is to fasten two separate pieces of fabric together. His question became “How do things fasten?” He became committed to the idea of inventing a better fastener and spent considerable time pondering how things fasten in other domains including nature.

One day when George was hunting birds with his Irish pointer, he traveled through some burdock thistles. The prickly seed burrs from the plants clung to his clothing and to his dog. While pulling off the burrs he noticed how they were removable yet easily reattached.

The burdock fascinated George and he imagined a fastener that mimicked a burdock. He studied the burrs under a microscope and discovered a hook system used by the burdock plant to migrate its seeds by attachment. The hooks could grab onto loops of thread or fur and migrate with the object it fastened itself to. This gave him the idea of creating a hook and loop fastener.

It was not logic that guided his thinking process but perception and pattern recognition between two totally unrelated subjects: zippers and burdocks. Logic dictates that burdocks are animate plants and zippers are inanimate manmade objects that are totally unrelated and, therefore, any relationship between the two is to be excluded. It was George’s creative perception, not logic, that recognized the common factor between a burdock and a zipper that fastens, not logic.

George envisioned two fabrics that could attach in this manner with one having a surface covered with minuscule hooks and another with hoops. Most of the experts he visited did not believe hooks could be created on the surface of fabric. However, he found a weaver at a textile plant that was willing to work with him. George discovered that a multifilament yarn weaved from velvet or cotton terry cloth created a surface of hooped threads. To create hooks, George would partially cut the hoops so they would become hooks. There was a great deal of experimentation to get the right density, thread sizes and rigidity. He eventually weaved the hook-side yarn from nylon and invented Velcro.

AN EXERCISE TO TEST YOUR CREATIVE PERCEPTION

Russian computer scientist, Mikhail Bongard, created a  remarkable set of visual pattern recognition problems to test one’s creative perception. The Bongard problems present two sets of relatively simple diagrams, say A and B. All the diagrams from set A have a common factor or attribute, which is lacking in all the diagrams of set B. The problem is to find, or to formulate, convincingly, the common   factor.

Below is an example of a Bongard problem. Test your perception and pattern recognition skills and try to solve the problem.   You have two classes of figures (A and B).  You are asked to discover some abstract connection that links all the various diagrams in A and that   distinguishes them from all the other diagrams in group B.

.EX.BONGARD (2) (1024x1024)

One has to take chances that certain aspects of a given diagram matter, and others are irrelevant.  Perhaps shapes count, but not sizes — or vice versa.  Perhaps orientations count, but not sizes — or vice versa.  Perhaps curvature or its lack counts, but not location inside the box — or vice versa.  Perhaps numbers of objects but not their types matter — or vice versa.  Which types of features will wind up mattering and which are mere distracters.  As you try to solve the problem, you will find the essence of your mental activity is a complex interweaving of acts of abstraction and comparison, all of which involve guesswork rather than certainty.  By guesswork I mean that one has to take a chance that certain aspects matter and others do not.

Logic dictates that the essence of perception is the activity of dividing a complex scene into its separate constituent objects and attaching separate labels to the now separated parts of pre-established categories, such as ovals, Xs and circles as unrelated exclusive events.  Then we’re taught to think exclusively within a closed system of hard logic.

In the above patterns, if you were able to discern the distinction between the diagrams, your perception is what found the distinction, not logic.  The distinction is the ovals are all pointing to the X in the A group, and the ovals area all pointing at the circles in the B group.

The following thought experiment is an even more difficult problem, because you are no longer dealing with recognizable shapes such as ovals, Xs, circles or other easily recognizable structures for which we have clear representations.  To solve this, you need to perceive subjectively and intuitively, make abstract connections, much like Einstein thought when he thought about the similarities and   differences between the patterns of space and time, and you need to consider the overall context of the problem.

BONGARD.DOT.NECK

A                                                        B

Again, you have two classes of figures (A and B) in the Bongard problem.  You are asked to discover some abstract connection that links all the various diagrams in A and that distinguishes them from all the other diagrams in group B.

SCROLL DOWN FOR ANSWER

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

ANSWER: The rule is the “dots” in A are on the same side of the neck.

 

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PROVOKE NEW IDEAS BY REVERSING YOUR PERSPECTIVE AND CONSIDERING THE OPPOSITE

 

Read the following essay from the top down.LOST GENERATION

Now reverse the way you read it and read it starting at the bottom and read up. Reading the words one way and then reversing the way you read the same words produces two contradictory viewpoints. Reversals break your existing patterns of thought and provoke new ones. You take things as they are and then turn them around, inside out, upside down, and back to front to see what happens.

In the illustration, Figure A shows two lines of equal length bounded by arrow-like angles. In Figure B, the arrow-like angles are reversed on one of the lines, which changes our perception and creates the illusion of the line being shorter. It’s not shorter, measure it and you will find it is still equal in length. The lines haven’t changed, your perception of them has.

4 lines.illus.1

In figure A the angles at the end of the lines seem to open up a potentially limited space. Reversing the angle seems to close off and limit the area, which changes your perception of the length of the lines.

A simple reversal of angles dramatically changes what we see in the illustration. The same perceptual changes occur when we reverse our conventional thinking patterns about problems and situations. When Henry Ford went into the automobile business, the conventional thinking was that you had to “bring people to the work.” He reversed this to “bring the work to the people” and accomplished this by inventing the assembly line. When Al Sloan became CEO of General Motors, the common assumption was that people had to pay for a car before they drove it. He reversed this to you can drive the car before you pay for it and, to accomplish this, he pioneered the idea of installment buying.

Years back, chemists had great difficulty putting a pleasant-tasting coating on aspirin tablets. Dipping tablets led to uneven and lumpy coats. They were stumped until they reversed their thinking. Instead of looking for ways to put something “on” the aspirin, they looked for ways to take something “off” the aspirin. This reversal led to one of the newer techniques for coating pills. The pills are immersed in a liquid which is passed onto a spinning disk. The centrifugal force on the fluid and the pills causes the two to separate, leaving a nice, even coating around the pill.

Mathematician-philosopher, Bertrand Russell, once astounded his colleagues by demonstrating that in mathematical argument, every alternative leads to its opposite. You can provoke new ideas by considering the opposite of any subject or action. When bioengineers were looking for ways to improve the tomato, they identified the gene in tomatoes that ripens tomatoes. They thought that if the gene hastens ripening  maybe they could use the gene to slow down the process by reversing it. They copied the gene, put it in backwards and now the gene slows down ripening, making vine ripened tomatoes possible in winter.

Peter Juroszek at the University of Bonn in Germany discovered the opposite of daylight farming and initiated nighttime farming. He found that strips of land ploughed at night grow five times fewer weeds. Wheat fields in particular grow so few weeds when night farming that pesticides are unnecessary. The seeds of most weeds need light for germination to begin, whereas the seeds of most crops can grow in complete darkness.

Reversal is the strategy used to develop Pringles potato chips. Potato chips were packaged dry in bags with a lot of air to prevent breakage. What would happen if you packaged chips while they were wet? This inspired them to think of raking leaves in the fall. Shoving dry leaves into bags is difficult; but when the leaves are wet they are soft and formable. A wet leaf conforms to the shape of its neighbor with little air between them. This was the analogy that inspired the idea. By wetting and forming dried potato flour, the packaging problem was solved and Pringles got its start.

CAN A BOOK BECOME A TREE?

Any particular thought will arouse the notion of its opposite by simply by reversing it. Then try to work the reversal into a practical, profitable idea. A publisher mused about the impact cutting down trees has on the environment and the future of the planet. A tree is cut down and the wood is made into paper which the publisher uses to print and sell books. He thought a tree becomes a book. He reversed this thought to “A book becomes a tree.”

IDEA: The project the publisher decided to pursue is to create storybooks that can be planted, and will grow back into trees. Hand stitched copies of children’s storybooks are made from recycled acid-free paper and biodegradable inks and the cover is embedded with native tree seeds.

The books are aimed at children aged 6-12 who, after reading, can plant the book and watch and nurture the tree as it grows. Each copy comes with planting instructions. The child is also urged to form a relationship with the tree by giving it a name. The publisher is also planning to have the book displayed in bookshops, where it can be seen visibly germinating.

In this case, the impossibility of growing books as plants revealed the interesting thought of planting books as seeds for trees. Imagine the joy of children as they realize the ecological importance of contributing to the welfare of the planet by planting a book after they have finished reading it and watch it become a tree. They will nurture the tree and watch it grow over the years of their childhood.

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Reversal is one of the many creative-thinking techniques creative geniuses, throughout history, used that enabled them to change their perspective to look at the same thing as everybody else and see something different.

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VISIT: http://www.creativethinking.net/#sthash.SXV5T2cu.dpbs

 

 

 

An Interview with Michael Michalko about his book: Creative Thinkering: Putting Your Imagination to Work

Children are naturally creative. Why do so many lose that talent as they grow older?

We were all born spontaneous and creative. Every one of us. As children we accepted all things equally. We embraced all kinds of outlandish possibilities for all kinds of things. When we were children we knew a box was much more than a container. A box could be a fort, a car, a tank, a cave, a house, something to draw on, and even a space helmet. Our imaginations were not structured according to some existing concept or category. We did not strive to eliminate possibilities, we strove to expand them. We were all amazingly creative and always filled with the joy of exploring different ways of thinking.

And then something happened to us, we went to school. We were not taught how to think, we were taught to reproduce what past thinkers thought. When confronted with a problem, we were taught to analytically select the most promising approach based on past history, excluding all other approaches, and then to work logically within a carefully defined direction towards a solution. Instead of being taught to look for possibilities, we were taught to look for ways to exclude them. It’s as if we entered school as a question mark and graduated as a period.

When you have a really tough challenge and can’t see the answer, what is your favorite technique for unlocking your brain?

When I am stonewalled, I just start typing “O peaceful gloom shrouding the earth” over and over and over.  Eventually, typing this phrase over and over unlocks something in my brain and the ideas start flowing.  It’s going through the motions of writing that un-sticks my mind.

Most people presume that our attitudes affect our behavior, and this is true.  But it’s also true that our behavior determines our attitudes.  Tibetan monks say their prayers by whirling prayer wheels on which their prayers are inscribed.  The whirling wheels spin the prayers into divine space.  Sometimes, a monk will keep a dozen or so prayer wheels rotating like a juggling act in which whirling plates are balanced on top of long thin sticks.

Many novice monks are not very emotionally or spiritually involved at first.  It may be that the novice is thinking about his family, his doubts about a religious vocation or something else while he is going through the motions of spinning his prayer wheel.  When the novice adopts the pose of a monk, and makes it obvious to himself and to others by playing a role, the brain will soon follow the role they are playing.  It is not enough for the novice to have the intention of becoming a monk: the novice must act like a monk and rotate the prayer wheels.  If one has the intention of becoming a monk and goes through the motions of acting like a monk, one will become a monk.

If you want to be an artist, and if all you did was paint a picture every day, you will become an artist.  You may not become another Vincent van Gogh, but you will become more of an artist than someone who has never tried.

What makes a genius a genius? 

Geniuses do not get their breakthrough ideas because they are more intelligent, better educated, more experienced, or because creativity is genetically determined. University of California Professor Dean Keith Simonton  observed that creative thinking demands the ability to make novel combinations. If you examine most any idea, you will discover that the majority of ideas are created by combining two or more different elements into something different. Simonton’s conclusion about genius is “Geniuses are geniuses because they form more novel combinations than the merely talented.”

You talk about incubating thinking. What does that mean and how do we do it?

Incubation makes use of subconscious processing of information. It usually involves setting a problem aside for a few hours, days, or weeks and moving on to other projects. This allows the subconscious to continue to work on the original challenge. The more interested you are in solving the challenge, the more likely your subconscious will generate ideas.

Henri Poincare, the French genius, spoke of incredible ideas and insights that came to him with suddenness and immediate certainty out of the blue. So dramatic are the ideas that arrive that the precise moment in which the idea arrived can be remembered in unusual detail. Charles Darwin could point to the exact spot on a road where he arrived at the solution for the origin of species while riding in his carriage and not thinking about his subject. Other geniuses offer similar experiences. Like a sudden flash of lightning, ideas and solutions seemingly appear out of nowhere.

Modern science recognizes this phenomenon of incubation and insight yet cannot account for why it occurs. That this is a commonplace phenomenon was shown in a survey of distinguished scientists conducted over a half-century ago. A majority of the scientists reported that they got their best ideas and insights when not thinking about the problem.

Our conscious minds are sometimes blocked from creating new ideas because we are too fixated. When we discontinue work on the problem for a period of time, our fixation fades, allowing our subconscious minds to freely create new possibilities. This is what happened to Nobel laureate Melvin Calvin. While idly sitting in his car waiting for his wife to complete an errand, he found the answer to a puzzling inconsistency in his research on photosynthesis. It occurred just like that, quite suddenly, and suddenly in a matter of seconds the path of carbon became apparent to him.

Ideas came while walking, recreating, or working on some other unrelated problem. This suggests how the creative act came to be associated with divine inspiration—the illumination appears to be involuntary.

What do you know about creative thinking today that you wished you knew twenty years ago?

That creativity is a phenomena that results from a certain combination of relationships. This combination includes the principles of intention, belief, attitude, behavior, language, knowing how to change the way you look at things, knowing how to think in different ways and learning how to think inclusively without the prejudices of logic. We’ve been schooled to think of them all as separate and distinct entities so they can be described and explained. Despite the apparent separateness of these at this level, they are all a seamless extension of each other and ultimately blend into each other.

When you look at nature, contents aren’t contained anywhere but are revealed only by the dynamics. What matters to nature are the ways relationships interact, the way they cooperate and combine to form coherent patterns. In nature form and content are inextricably connected and can’t be separated. The healthy pattern of trees bending in concert creates harmony and beauty, whereas, an unhealthy pattern is destructive and ugly. With the trees, it is the combination of relationships between the wind, rain, roots and soil that forms the healthy or unhealthy relationships. With people, it is a common body of human behaviors and generalized principles from which patterns blend together to create the person.

Like nature, the contents of creative genius aren’t contained anywhere but also are revealed by the dynamics. When you look at the behaviors of creative geniuses throughout the history of the world, you will find that, like the patterns of nature, the form and contents of their behaviors are inextricably connected and can’t be separated. Creators have the intention to create, and act and speak in a positive and joyful manner. Creators look at what is and what can be instead of what is not. Instead of excluding possibilities, creators consider all possibilities, both real and imagined. Creators interpret experiences for themselves and disregard the interpretations of past thinkers. Creators learn how to look at things in different ways and use different ways of thinking. And most importantly, creators are creative because they believe they are creative and have the intention to create

Describe strategies you apply in your daily life to make it more creative.

THOUGHT WALKS.  I like to take walks around my home or workplace and the surrounding grounds. I look for objects, situations or events that you I can compare with whatever project II happen to be working on. For example, suppose your problem is how to improve communications in your company. You take a walk and notice potholes in the road. How are “potholes” like your corporate communication problem? For one thing, if potholes are not repaired, they get bigger and more dangerous. Usually road crews are assigned to repair the potholes. Similarly, unless something is done to improve corporate communications, it’s likely to deteriorate even further. An idea with a similar relation to “road crews” is to assign someone in the organization to fill the role of “communications coach.” The role would entail educating, encouraging, and supporting communication skills in all employees. And just as road crews are rotated, you can rotate the assignment every six months.

I also deliberately program changes into my daily life. I make a list of things I do by habit (little things that make life comfortable but also make it unnecessary to think. Then I take the habits, one by one, and consciously change them for a day or so. Examples are:

  • Take a different route to work.
    •    Watch a different news channel.
    •    Read a different newspaper. Read foreign newspapers.
    •    Listen to a different radio station. Listen to the BBC.
    •    Change recreations. Instead of golf, try boating.
    •    Spend a full day away from all communication technology (telephone, cell, computer, radio, television, and so on).
    •    Play word games. Take a short word and expand it into several sentences using each letter of the word as the first word of each letter of each sentence. Example: The word is “Damn.” Some sentences are “Do airplanes make noise?” “Dottie ate many nuts.”
    •    Another word game I play is to describe what I’m thinking or feeling in exactly six words. Examples:
    o    “Boy if I had another year.”
    o    “Never should have bought this computer.”
    o    ”I can still create novel ideas.”
    •    Change your reading habits. Instead of nonfiction. Read fiction. Tabloids, comics, poetry,
    the bible, Koran, scientology tracts.

    When choosing from an array of creative-thinking techniques, how does one know which technique is appropriate for a certain type of problem?

    All art is a reaction to the first line drawn. No art is created until the artist draws the first line. It is same with creative thinking. Nothing happens until you start thinking. Rather than waiting until you feel in the mood or you feel comfortable with a particular technique, just start working. You may end up using one technique or a combination of several or even a technique you make up. The key is that the techniques will get you thinking fluently and flexibly which will change the way you look at the problem.

    You recommend that we relentlessly keep notes about our ideas, observations, and creative attempts. And that we record information about all the ideas, concepts and problems we are working on. How does one establish the discipline of systematically keeping notes like creative geniuses, such as Edison? What is your secret to consistently doing it?

    The secret is that it is no secret. Make it a habit to keep the written record of your creativity attempts in a notebook, on file cards or in your computer. A record not only guarantees that the thoughts and ideas will last, since they are committed to paper or computer files, but will inspire you into other thoughts and ideas.

    The simple act of recording his ideas enabled Leonardo da Vinci to dwell on his ideas and improve them over time by elaborating on them. Thus, Leonardo was able to take simple concepts and work them into incredibly complex inventions that were years ahead of their time, such as the helicopter, the bicycle, and the diving suit.

    Following Leonardo’s example, Edison relentlessly recorded and illustrated every step of his voyage to discovery in his 3,500 notebooks that were discovered after his death in 1931. His notebooks got him into habits. They enabled him to cross-fertilize ideas, techniques, and conceptual models by transferring them from one problem to the next.

    •    For example, when it became clear in 1900 that an iron-ore mining venture in which Edison was financially committed was failing and on the brink of bankruptcy, he spent a weekend poring over his notebooks and came up with a detailed plan to redirect the company’s efforts toward the manufacture of Portland cement, which could capitalize on the same model of the iron ore company.

    Whenever he succeeded with a new idea, Edison would review his notebooks to rethink ideas and inventions he’d abandoned in the past in the light of what he’d recently learned. If he was mentally blocked working on a new idea, he would review his notebooks to see if there was some thought or insight that could trigger a new approach.

    •    For example, Edison took his unsuccessful work to develop an undersea telegraph cable variable resistance and incorporated it into the design of a telephone transmitter that adapted to the changing sound waves of the caller’s voice. This technique instantly became the industry standard.

    Edison would often jot down his observations of the natural world, failed patents and research papers written by other inventors, and ideas others had come up with in other fields. He would also routinely comb a wide variety of diverse publications for novel ideas that sparked his interest and record them in his notebooks. He made it a habit to keep a lookout for novel and interesting ideas that others have used successfully on other problems in other fields. To Edison, your idea needs to be original only in its adaptation to the problem you’re working on.

    Edison also studied his notebooks of past inventions and ideas to use as springboards for other inventions and ideas in their own right. To Edison, his diagrams and notes on the telephone (sounds transmitted) suggested the phonograph (sounds recorded), which notes and diagrams, in turn, suggested motion pictures (images recorded).

    Simple, in retrospect, isn’t it? Genius usually is.

THINKERING.KUDOS.abrev.

MICHAEL MICHALKO is the author of  the best-seller Thinkertoys (A Handbook of Business Creativity), which the Wall Street Journal reported “will change the way you think.” He is also the author of Cracking Creativity (The Secrets of Creative Geniuses) which describes the common thinking strategies creative geniuses have used in the  sciences, art, and industry throughout history and shows how we can apply them to become more creative in our business and personal lives. In addition, he created Thinkpak (A Brainstorming Card Set), which is a novel creative-thinking tool that is designed to facilitate brainstorming sessions. Michael’s most recent book Creative Thinkering: Putting Your Imagination to Work focuses on how creative geniuses combine and conceptually blend dissimilar subjects create original thoughts and ideas. http://www.creativethinking.net

 

 

CAN YOU THINK OUT OF THE BOX?

 cat.100

In the graphic above, 9 toothpicks are arranged to form a 100. Can you change 100 to form the word CAT by altering the position of just 2 toothpicks? Take a few moments and see if you can solve it.

One of the many ways in which our mind attempts to make life easier is to solve the first impression of the problem that it encounters. Like our first impressions of people, our initial perspective on problems and situations are apt to be narrow and superficial. We see no more than we’ve been conditioned to see–and stereotyped notions block clear vision and crowd out imagination. This happens without any alarms sounding, so we never realize it’s occurring.

Once we have settled on a perspective, we close off but one line of thought. Certain kinds of ideas occur to us, but only those kinds and no others. What if the crippled man who invented the motorized cart had defined his problem as: “How to occupy my time while lying in bed?” rather than “How to get out of bed and move around the house?”

Have you ever looked closely at the wheels on a railroad train? They are flanged. That is, they have a lip on the inside to prevent them from sliding off the track. Originally train wheels were not flanged–instead, the railroad tracks were. Because the problem of railroad safety had been expressed as: “How can the tracks be made safer for trains to ride on?” hundreds of thousands of miles of track were manufactured with an unnecessary steel lip. Only when the problem was redefined as: “How can the wheels be made to secure the track more securely?” was the flanged wheel invented.

Leonardo Da Vinci believed that to gain knowledge about the form of problems, you began by learning how to restructure it to see it in many different ways. He felt the first way he looked at a problem was too biased toward his usual way of seeing things. He would restructure his problem by looking at it from one perspective and move to another perspective and still another. With each move, his understanding would deepen and he would begin to understand the essence of the problem.  Leonardo called this thinking strategy saper vedere or “knowing how to see.”

To start with, it’s helpful to coin problems in a particular way. Write the problems you want to solve as a definite question. Use the phrase “In what ways might I…?” to start a problem statement. Using this phrase instead of simply asking “how” will psychologically influence you to look for alternative ways.

When we first look at our problem we read it the way we’re taught to read figures left to right. It can’t be solved this way moving just 2 sticks. In what ways might you look at the problem? One other way is to visualize the figure as being upside down read the figure from right to left.

cat.solution

The trick is that the word CAT will be upside down after you solve the puzzle. Simply take the toothpick that is the left side of the second zero, and place it horizontally and centered at the bottom of the 1. Then move the toothpick at the top of the first zero halfway toward the bottom.

Now turn it upside down.

cat.rightsideup

Genius often comes from finding a new perspective of a problem by restructuring it in some way. When Richard Feynman, the Nobel Laureate physicist, was “stuck” with a problem, he would look at it in a different way. If one way didn’t work, he would switch to another. Whatever came up, he would always find another way to look at it. Feynman would do something in ten minutes that would take the average physicist a year because he had a lot of ways to represent his problem.

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Best-selling creativity expert Michael Michalko shows that in every field of endeavor, from business and science to government, the arts, and even day-to-day life — natural CREATIVE THINKERINGcreativity is limited by the prejudices of logic and the structures of accepted categories and concepts. Through step-by-step exercises, illustrated strategies, and inspiring real-world examples he shows readers how to liberate their thinking and literally expand their imaginations by learning to synthesize dissimilar subjects, think paradoxically, and enlist the help of the subconscious mind. He also reveals the attitudes and approaches diverse geniuses share — and anyone can emulate.

http://www.amazon.com/dp/160868024X/ref=cm_sw_r_tw_dp_XUhvxb0YKA63R … via @amazon

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Michael Michalko is one of the most highly-acclaimed creativity experts in the world and author of the best-seller Thinkertoys (A Handbook of Business Creativity), ThinkPak (A Brainstorming Card Deck), Cracking Creativity (The Secrets of Creative Genius), and Creative Thinkering: Putting Your Imagination to Work.  http://creativethinking.net/#sthash.SXV5T2cu.dpbs

 

 

 

 

 

NEED IDEAS?

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CREATIVE THINKERING

 MAN.DOG

A Major Contribution to the Creative Literature by One of the Greats.

Sorry for the gushing title, but this book really hit the creativity spot. Michael Michalko is one of the big minds in the teaching of creative thinking and this book demonstrates why. Beginning from the principle that new ideas are the combination of existing things in new ways, Michalko describes the mindset and perspectives that are required to promote personal creativity – looking at things differently, combining random items with existing inputs, running thought experiments, for example. Michalko also provides an incredible list of positive affirmations with which to start the day to ensure a creative, positive and open attitude. It’s not your typical list of standard one-liners, but a list of affirmations that connect and build on each other. This is a segment of the lesson on playing the part of the creative person to become creative. The book also includes many powerful visuals and exercises that reinforce the lessons and points. Michalko does a masterful job of pointing out exactly how we are defective in our thinking and how we can get out of those mental ruts to revive the creative spirit we had in childhood. A must book for anyone seeking to become more creative.   – Vine Voice Amazon

https://lnkd.in/e7kTPG6 … via @amazon

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7 SINS THAT KILL CREATIVITY IN AMERICA

seven (1)

SIN ONE. WE DO NOT BELIEVE WE ARE CREATIVE

People do not believe they are creative. We have been taught that we are the product of our genes, our parents, our family history, our personal history, our I.Q., and our education. Consequently, we have been conditioned to have a fixed mindset about creativity and believe only a select few are born creative and the rest not. Because we believe we are not creative, we spend our lives observing only those things in our experiences that confirm this belief. We spend our lives knowing and living within the limitations we believe we have. We listen to our “inner” voice that keeps telling us not to pretend to be something we’re not. Believing we are not creative makes us comfortable to be cognitively lazy.

SIN TWO. WE BELIEVE THE MYTHS ABOUT CREATIVITY

We believe many of the myths about creativity that have been promulgated over the years. We’re told creativity is rare, mysterious, and magical and comes from a universal unconsciousness, a sudden spark of “Aha!” or the divine. We believe only special people are genetically endowed to be creative and that normal educated people cannot be creative and should not embarrass themselves by trying. Additionally, we also believe creative types are depressed, crazy, freaky, unbalanced, disruptive, different, argumentative, abnormal, flaky, and trouble makers.  We should be thankful we are normal and think the way we were taught to think. 

SIN THREE. WE FEAR FAILURE

The most important thing for many people is to never make a mistake or fail. The fixed mind-set regards failure as a personal insult, and when they fail they withdraw, lie and try to avoid future challenges or risks.

At one time in America people believed that all a person was entitled to was a natural birth. Everything else was up to the person, and a person’s pride and passion came from overcoming the adversities in life. Failure was seen as an opportunity rather than insult. Once Thomas Edison’s assistant asked him why he didn’t give up on the light bulb. After all, he failed 5,000 times. Edison’s responded by saying he didn’t know what his assistant meant by the word “failed,” because Edison believed he discovered 5000 things that don’t work. This was the era when creative thinking flourished in America. People like Edison, Tesla, and Westinghouse did not know they could not think unconventionally and so they did.

After World War II, psychologists promulgated “Inevitability theories” about how everyone’s life was shaped by genetic or environmental factors that were beyond their control. There began a promiscuity of the teaching of helplessness that has dimmed the human spirit and has created a “culture of helplessness.” It is this culture of helplessness that has cultivated the mindset that fears failure.

This fixed mindset of fear is grounded in the belief that talent is genetic—you’re born an artist, writer, or entrepreneur. Consequently, many of us never try anything we haven’t tried before. We attempt only those things where we have the past experience and knowledge and know we can succeed. This culture of helplessness cultivated by educators encourages us to look for reasons why we cannot succeed.  

SIN FOUR. WE FAIL TO ACT

Because we fear failure we not act. We avoid taking action. If we don’t act, we can’t fail. If we are forced to take action, we do not do anything until we have a perfect plan which will take into account any and everything that can happen. We make sure the plan details all the human and material resources you need. We will seek the guidance and direction of every expert and authority we are able to approach. If any authority figure or expert expresses even the slightest doubt, we will not take the risk of failure and abandon the plan.

All art is a reaction the first line drawn. If no line is drawn there will be no art. Similarly, if you don’t take action when you need new ideas in your personal and business lives and do nothing, nothing bad can happen and nothing is the result. In our culture of helplessness, nothing is better than even the slightest chance of failure, because failure means we are worthless.

SIN FIVE. WE FAIL TO PRODUCE IDEAS

We are taught to be critical, judgmental, negative and reproductive thinkers. In our “culture of helplessness,” we take pride in dissecting ideas and thoughts of others and demonstrating their flaws. The more negative we can be, the more intelligent we appear to others. In meetings, the person who is master of destroying ideas becomes the most dominant one. The first thought we have when confronted with a new idea is “Okay, now what’s wrong with it?”

When forced to come up with ideas, we come up with only a few. These are the ideas we always come up with because these are the same old safe ideas that are closest to our consciousness. Our judgmental mind will censor anything that is new, ambiguous or novel. We respond to new ideas the way our immune system responds to a deadly virus. Our inner voice will advise us to “Not look stupid,” “Give up. You don’t have the background or expertise,” “It’s not relevant,” “If it was any good, it would already have been done before” “This will never be approved,” “where’s the proof? “This is not logical,” “Don’t be silly,” “You’ll look stupid,” and so on. Anything that is not verifiable by our past experiences and beliefs is not possible.

Instead of looking for ways to make things work and get things done, we spend our time looking for reasons why things can’t work or get done.

SIN SIX. WE FAIL TO LOOK AT THINGS IN DIFFERENT WAYS

square-and-circlesMost people see the pattern in the illustration above as a square composed of smaller squares or circles or as alternate rows of squares and circles

It cannot be easily seen as columns of alternate squares and circles. Once it’s pointed out that it can also be viewed as columns of alternate squares and circles, we, of course, see it. This is because we have become habituated to passively organize similar items together in our minds. Geniuses, on the other hand, subvert habituation by actively looking for alternative ways to look at things and alternative ways to think about them.

One of the many ways in which people attempt to make thinking easier is to solve the first impression of the problem that they encounter. This enables them to approach the problem with predetermined concepts and they end up seeing what they expect to see based on their past experiences. Once you accept the initial perspective, you close off all other lines of thought. Certain kinds of ideas will occur to you, but only those kind and no others. Settling with the first perspective keeps things simple and helps you avoid ambiguity.

With creative thinking, one generates as many alternative approaches as one can. You consider the least obvious as well as the most likely approaches. It is the willingness to explore all approaches that is important, even after one has found a promising one. Einstein was once asked what the difference was between him and the average person. He said that if you asked the average person to find a needle in the haystack, the person would stop when he or she found a needle. He, on the other hand, would tear through the entire haystack looking for all the possible needles.

We are taught to follow a certain thinking process and must never entertain alternative ways of looking at the problem or different ways of thinking about it. Keep doing what you are doing. The more times you think the same way, the better you become at producing orderly and predictable ideas. Always think the way you’ve always thought to always get what you’ve always got.

SIN SEVEN. FAILURE TO ACCEPT PERSONAL RESPONSIBILITY

It is not our fault we are not creative. It’s the teachers who are responsible and our parents, the churches, our genetics, the government, lack of time, lack of resources, lack of an inspiring environment, lack of suitable technology, lack of encouragement, too much sugar, lack of financial rewards, the organization, the bosses, lack of entitlements, lack of any guarantee of success, and, after all, most of us are born left-brained not right-brained. You can’t expect people to be something they’re not. In our “culture of helplessness,” we have learned that we cannot change our attitude, behavior, beliefs or the way we think.

SUMMARY. The only difference between people who are creative and people who are not is a simple belief. Creative people believe they are creative. People who believe they are not creative, are not. Once you have a particular identity and set of beliefs about yourself, you become interested in seeking out the skills needed to express your identity and beliefs.

This is why people who believe they are creative become creative. They work hard at learning how to think creatively and produce great quantities of ideas. If you believe you are not creative, then there is no need to learn how to become creative and you don’t. The reality is that believing you are not creative excuses you from trying or attempting anything new. When someone tells you that they are not creative, you are talking to someone who has no interest and will make no effort to be a creative thinker.

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Michael Michalko is the author of the highly acclaimed Thinkertoys: A Handbook of Creative Thinking Techniques; Cracking Creativity: The Secrets of Creative Genius; ThinkPak: A Brainstorming Card Deck and Creative Thinkering: Putting Your Imagination to Work.

http://creativethinking.net/#sthash.SXV5T2cu.dpbs