Tag: brainstorming

The Exquisite Corpse

It is not possible to think unpredictably by looking harder and longer in the same direction. When your attention is focused on a subject, only a few patterns dominate your thinking. These patterns produce predictable ideas no matter how hard you try. In fact, the harder you try, the stronger the same patterns become. If, however, you change your focus and combine your subject with something that is not related, different, unusual patterns are activated.

Try an experiment. Pick eight random words and give the list to someone or to a small group (for example: flower pot, baby, glass, grasshopper, coffee pot, box, toast and garage). Ask them to divide the words into two groups without giving them any rationale for the division. You’ll discover that people will come up with some very creative classifications. They’ll group them according to “words with the letter o”, “things that touch water”, “objects made in factories”, and so on. No one ever says there is no connection, they invent them.

Though we seldom think about it, making random connections in such a manner are conceptual creative acts. Making random connections were popular techniques used by Jackson Pollock and other Surrealist artists to create conceptual combinations in art. Artists in a group would take turns, each contributing any word that occurred to them in a “sentence” without seeing what the others had written. The resulting sentence would eventually become a combination of concepts that they would study and interpret hoping to get a novel insight or a glimpse of some deeper meaning. The technique is named “The Exquisite Corpse” after a sentence which happened to contain those words.


Have the group bounce ideas and thoughts about the subject off each other for five to ten minutes.

Then, ask the participants to think about what was discussed and silently write one word that occurs to them on a card.

Collect the cards and have the group combine the words into a sentence (words can be added by the group to help the sentence make sense).

Then invite the group to study the final sentence and build an idea or ideas from it.

An Alzheimer’s organization planned to have an auction to raise money for their cause. They planned an elaborate, sophisticated evening and looked for unusual items they could auction. They tried the “exquisite corpse” technique. Some of the words they came up with were people, cruises, creative, furniture, charity, designer, custom, art, thin air, and celebrities. One of the connections was: create—-art—-thin air.

This triggered their idea which was the sensation of the auction. They sold an idea for an artwork that doesn’t exist. They talked a well-known conceptual artist into describing an idea for an artwork. The idea was placed in an envelope and auctioned off for $5,000. Legal ownership was indicated by a typed certificate, which specified that the artwork (10, 0000 lines, each ten inches long, covering a wall) be drawn with black and red pencils. The artist and the owner will have one meeting where the artist will describe his vision for the painting with the owner. The owner has the right to reproduce this piece as many times as he likes.

Michael Michalko

Activate Your Inner Creativity

Experimental social psychologists have conducted numerous experiments that demonstrate how behavior and performance can be “primed” by showing participants certain objects and pictures. In one study, participants who were primed with pictures associated with business — such as briefcases, pens, pictures of people dressed in business clothes, commuter trains, and so on — became more competitive. The social psychologist Michael Slepian and colleagues at Tufts University noticed during a study on “bright ideas” that participants became more insightful and creative when they were primed with an exposed light bulb. In short, they found that even exposure to an illuminating light bulb primes creativity.

Primes have been reported to influence nearly every facet of social life. Yale University psychologist John Bargh had college students unscramble sentences that, for one group, contained words related to stereotypes about the elderly, such as wrinkle and Florida. Upon finishing, participants who had read old age–related words took seconds longer to walk down an exit hallway than peers who had perused age-neutral words. In other experiments, cues about money and wealth nudged people to become more self-oriented and less helpful to others. And people holding hot cups of coffee were more apt to judge strangers as having warm personalities. [The Hot and Cold of Priming by Bruce Bower. Science News. May 19th, 2012; Vol.181 #10]

John Bargh likens primes to whistles that only mental butlers can hear. Once roused by primes, these silent inner servants dutifully act on a person’s preexisting tendencies and preferences without making a conscious commotion. Many animals reflexively take appropriate actions in response to fleeting smells and sounds associated with predators or potential mates, suggesting an ancient evolutionary heritage for priming, Bargh says. People can pursue actions on their own initiative, but mental butlers strive to ease the burden on the conscious lord of the manor.


One way to prime yourself for creativity is to generate an awareness of what you want to be or accomplish. You can do this by creating a “Zeitgeist Board.” Zeitgeist means a general awareness of your general psychological, intellectual, emotional and creative spirit. A Zeitgeist Board is a large poster board on which you paste images, sayings, articles, poems, and other items that you’ve collected from magazines and other sources. It’s simple. The idea is to surround yourself with images of your intention (what you want to create or who you want to become) and, in the process, to encourage your awareness and passion to grow. Lay your intention board on a surface where you can work on it, and try out this thought experiment:

THOUGHT EXPERIMENT. Ask yourself what it is you want to be or to create. Maybe one word will be the answer. Maybe images will appear in your head or, perhaps, a picture best represents your intention. Post the word, image, or picture in the middle of your Zeitgeist Board.

Suppose you want to create a donut shop. Post the words “Donut Shop” or a picture in the center of the board. Now look through magazines and other sources and pull out pictures, poems, articles, or headlines that relate to donut shops and post them on the board. Or suppose you want to write a novel. Similarly post the words or a picture that represents writing a novel to you (e.g., a picture of Ernst Hemingway) and post items that relate to writing a novel on the board.

Have fun with it. Make a big pile of images, words, and phrases. Go through the pile and put favorites on the board. If you add new ones, eliminate those that no longer feel right. This is where intuition comes in. As you place the items on the board, you’ll get a sense how they should be laid out. For instance, you might want to assign a theme to each corner of the board, such as “What I have,” “What I will have,” “What I need,” and “How to get what I need.”

Hang the board on a wall and study and work on it every day. You’ll discover that the board will add clarity to your desires, and feeling to your visions, which in turn will generate an awareness of the things in your environment that can help you realize your vision. You will begin to see things that you did not see before, and, just as importantly, will become aware of the blanks and holes in your vision.

You can then become proactive and imagine the many different ways you can fill in the blanks. Imagine a person who is aware of all the colors except one particular shade of blue. Let all the different shades of blue, other than that one, be placed before him, and arranged in order from the deepest to the lightest shade of blue. He most probably will perceive a blank, where that one shade is missing, and will realize that the distance is greater between the contiguous colors than between any others. He will then imagine what this particular shade should look like, though he has never seen it. This would not be possible had he not seen all the different shades of blue.

My brother-in-law desired to be an artist. His Zeitgeist Board was a collage of pictures of paintings and artists, poetry about art, and articles about artists and their work. In the center of the board, he had a picture of Vincent Van Gogh’s self-portrait. Over time, he began to imagine conversing with his various prints of paintings. One print that particularly enthralled him was Vincent van Gogh’s Starry Night. He would focus on the painting and engage in an imaginary two-way conversation. The more he engaged with the painting, the more alive it seemed to become. He would ask the painting questions, such as: What inspired the artist to paint the picture? What was his knowledge of the world? What were his contemporaries’ views of the painting? How was the artist able to communicate over the centuries? What is the artist communicating? He would ask how the colors worked together, and ask questions about lines, shapes, and styles.

My brother-in-law, once a disgruntled government employee, is now a successful artist who has had several showings of his work. He created a psychological environment with his Zeitgeist Board that primed his subconscious mind which influenced him to change his role in the world and become the artist he wanted to be.
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.
Learn how you can use the habits and creative thinking techniques that creative geniuses throughout history to change the world. Read: http://creativethinking.net/#sthash.SXV5T2cu.dpbsM

Logic Can Get You From A to B; Imagination Can Get You Anywhere

Einstein often said that imagination is more important than knowledge. Here is how he explained time as the fourth dimension in his unified theory: “Imagine a scene in two-dimensional space, for instance, the painting of a man reclining upon a bench. A tree stands behind the bench. Then imagine the man walks from the bench to a rock on the other side of the tree. He cannot reach the rock except by walking in back of the tree. This is impossible to do in two-dimensional space. He can reach the rock only by an excursion into the third dimension. Now imagine another man sitting on the bench. How did the other man get there? Since the two bodies cannot occupy the same place at the same time, he can have reached there only before or after the first man moved. In other words, he must have moved in time. Time is the fourth dimension.

Think of how Einstein changed our understanding of time and space by imagining 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 imagined 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. And still another time he imagined a blind beetle crawling around a sphere thinking it was crawling in a straight line.
Try to solve the following thought experiment before you read the paragraph that follows it.

Thought Experiment. 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. Imagination gives us the impertinence to imagine making the impossible possible.

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. The ancient Greeks called this kind of thinking homoios which means “same.” They sensed that this was really a kind of mirror image of the dream process, and it led to art and scientific revelations.


Since ancient Greece, cognitive scientists have discovered that the brain is a dynamical system—an organ that evolves its patterns of activity rather than computes them like a computer. It thrives on the creative energy of feedback from experiences either real or fictional. An important point to remember is that you can synthesize experience, literally create it in your imagination. The human brain cannot tell the difference between an “actual” experience and an experience imagined vividly and in detail.

The real key to turning imagination into reality is acting as if the imagined scene were real. Instead of pretending it is a scene from the future, Einstein imagined it as though he was truly experiencing it in the present. He imagined it as a real event in the now. The great masters of antiquity have told us through the ages that whatever you believe you become. If you believe and imagine in the now that you are whatever you wish to be, then reality must conform.

Thought Experiment. Think of something in your business that is impossible to do, but that would, if it were possible to do, change the nature of your business forever.

Think of an impossibility, then try to come up with ideas that take you as close as possible to that impossibility. For example, imagine an automobile that is a live, breathing creature, List attributes of living creatures. They are, for example, breathing, growing older, reproducing, feeling emotions, and so on. Then use as many of those attributes as you can while designing your automobile. For instance, can you work emotions into something that a car displays?

Japanese engineers for Toyota are working on a car that they say can express moods ranging from angry to happy to sad. The car can raise or lower its body height and ‘‘wag’’ its antenna, and it comes equipped with illuminated hood designs, capable of changing colors, that are meant to look like eyebrows, eyes, and even tears. The car will try to approximate the feelings of its driver by drawing on data stored in an onboard computer. So, for example, if another car swerves into an expressive car’s lane, the right combination of deceleration, brake pressure, and defensive steering, when matched with previous input from the driver, will trigger an ‘‘angry’’ look.

The angry look is created as the front-end lights up with glowing red U-shaped lights, the headlights become hooded at a forty-five-degree angle, and downward-sloping “eyebrow” lights glow crimson. A good-feeling look is expressed by the front-end lights glowing orange, and one headlight winks at the courteous driver and wags its antennae. A sad-feeling look is blue with “tears” dripping from the headlights.

Stretching your imagination by trying to make impossible things possible with concrete thoughts and actions is a mirror reversal of dreaming. Whereas a dream represents abstract ideas as concrete actions and images, this creative process works in the opposite direction, using concrete ideas (a car that is alive) to gain insight on a conscious level to reveal disguised thoughts (about cars showing emotion) as creative imagery.

Michael Michalko is a highly-acclaimed creativity expert and author of THINKERTOYS, CRACKING CREATIVITY, CREATIVE THINKERING, AND THINKPAK (A brainstorming card deck).

How to Reverse Your Perspective to Create New Idea


Is this an illustration of an old woman or a young girl?

Many times we have to change our psychology to understand certain phenomena. Think of Michelangelo when he sculpted what may be the world’s most famous sculpture, David. He did not think of “building” something; he thought of “taking away” something from what was there. A quotation often attributed to him has it that “the more the marble wastes away, the more the sculpture grows.”

To understand a mirror you have to change your psychology. Why does a mirror seem to invert left and right but not top and bottom? That is, when you hold an open book up to a mirror, why are the letters of the text backward but not upside down, and why is your left hand the double’s right and your right the double’s left? When we look into a mirror we imagine ourselves reversed left to right, as if we had walked around behind a pane of glass to look through it. This conventional perspective is why we cannot explain what is happening with a mirror. To understand a mirror’s image, you have to psychologically reverse the way you perceive your image. Imagine your nose and the back of your head reversed, through the mirror. You have to imagine yourself reversed, “squashed” back to front. Stand in front of the mirror with one hand pointing east and the other west. Wave the east hand. The mirror image waves its east hand. Its west hand lies to the west. Its head is up and the feet are down. Once you look at a mirror with this perspective, you gain an understanding, about the axis of the mirror, which is the imaginary line on a mirror about which a body rotates. We have difficulty understanding the mirror until we change our perspective.

Similarly, we sometimes have difficulty coming up with ideas until we change our psychology. Early nomadic societies were all based on the principle of “getting to the water.” Only when they reversed this to “how can we get the water to come to us” did civilization begin to flourish. An easy way to change your thinking patterns when faced with a problem is to first list all your assumptions about the problem. Then reverse your assumptions and try to make the reversals work.

Following is a thought experiment about reversing a store policy. After you read the problem, try to come up with ideas before you read further.


A clothing retailer is concerned about the rate of garment returns. According to the store policy, a customer who returns a garment must receive a cash refund. Reverse this policy so that it says: if a customer returns a garment, the store doesn’t have to give a cash refund. Can you come up with ideas to make this reversal into a practical solution?


What can the store give the customer instead of a refund? One idea is to offer the customer a gift certificate worth more than the original purchase price. In effect this gives the customer a 10 percent reward for returning the unwanted garment. The policy would allow the store to keep most of the cash, and the customers would likely be happy with the reward. The real payback would occur when the customer returned with the gift certificate. A customer who returned a $100 garment would receive a gift certificate for $110. Psychology predicts that, when the customer returns to the store, he will go to the higher priced garments. For example, instead of shopping for an $l00 garment, he will be attracted to the $200 garments because, in his mind, it would “cost” him only $90. What a deal! Change the way you look at things by reversing them and looking at the other side.

For more creative thinking techniques read Thinkertoys by Michael Michalko.



We have not been taught how to think for ourselves, we have been taught what to think based on what past thinkers thought. We are taught to think reproductively, not productively. What most people call thinking is simply reproducing what others have done in the past. We have been trained to seek out the neural path of least resistance, searching out responses that have worked in the past, rather than approach a problem on its own terms.

Educators discourage us from looking for alternatives to prevailing wisdom. When confronted with a problem, we are 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 are taught to look for ways to exclude them. This kind of thinking is dehumanizing and naturalizes intellectual laziness which promotes an impulse toward doing whatever is easiest or doing nothing at all. It’s as if we entered school as a question mark and graduated as a period.

Once when I was a young student, I was asked by my teacher, “What is one-half of thirteen?” I answered six and one half or 6.5. However, I exclaimed there are many different ways to express thirteen and many different to halve something. For example, you can spell thirteen, then halve it (e.g., thir/teen). Now half of thirteen becomes four (four letters in each half). Or, you can express it numerically as 13, and now halving 1/3 gives you 1 and 3. Another way to express a 13 is to express it in Roman numerals as XIII and now halving XI/II gives you XI and II, or eleven and two. Consequently one-half of thirteen is now eleven and two. Or you can even take XIII, divide it horizontally in two (XIII) and half of thirteen becomes VIII or 8.

My teacher scolded me for being silly and wasting the class’s time by playing games. She said there is only one right answer to the question about thirteen. It is six and one-half or 6.5. All others are wrong. I’ll never forget what she said “When I ask you a question, answer it the way you were taught or say you don’t know. If you want to get a passing grade, stop making stuff up.”

When we learn something, we are taught to program it into our brain and stop thinking about or looking for alternatives. Over time these programs become stronger and stronger, not only cognitively but physiologically as well. To get a sense of how strong these programs are, try solving the following problem.

Even when we actively seek information to test our ideas to see if we are right, we usually ignore paths that might lead us to discover alternatives. Following is an interesting experiment, which was originally conducted by the British psychologist Peter Wason that demonstrates this attitude. Wason would present subjects with the following triad of three numbers in sequence.

2       4       6

He would then ask subjects to write other examples of triads that follow the number rule and explain the number rule for the sequence. The subjects could ask as many questions as they wished without penalty.

He found that almost invariably most people will initially say, “4, 6, 8,” or “20, 22, 24,” or some similar sequence. And Watson would say, yes, that is an example of a number rule. Then they will say, “32, 34, 36″ or “50, 52, 54″ and so on– all numbers increasing by two. After a few tries, and getting affirmative answers each time, they are confident that the rule is numbers increasing by two without exploring alternative possibilities.

Actually, the rule Wason was looking for is much simpler– it’s simply numbers increasing. They could be 1, 2, 3 or 10, 20, 40 or 400, 678, 10,944. And testing such an alternative would be easy. All the subjects had to say was 1, 2, 3 to Watson to test it and it would be affirmed. Or, for example, a subject could throw out any series of numbers, for example, 5, 4, and 3 to see if they got a positive or negative answer. And that information would tell them a lot about whether their guess about the rule is true.

The profound discovery Wason made was that most people process the same information over and over until proven wrong, without searching for alternatives, even when there is no penalty for asking questions that give them a negative answer. In his hundreds of experiments, he, incredibly, never had an instance in which someone spontaneously offered an alternative hypothesis to find out if it were true. In short, his subjects didn’t even try to find out if there is a simpler or even, another, rule.

On the other hand, creative thinkers have a vivid awareness of the world around them and when they think, they seek to include rather than exclude alternatives and possibilities. They have a “lantern awareness” that brings the whole environment to the forefront of their attention. So, by the way, do children before they are educated. This kind of awareness is how you feel when you visit a foreign country; you focus less on particulars and experience everything more globally because so much is unfamiliar.

I am reminded of a story about a student who protested when his answer was marked wrong on a physics degree exam at the University of Copenhagen. The imaginative student was purportedly Niels Bohr who years later was co-winner of the Nobel Prize for physics.

In answer to the question, “How could you measure the height of a skyscraper using a barometer?” he was expected to explain that the barometric pressures at the top and the bottom of the building are different, and by calculating, he could determine the building’s height. Instead, he answered, “You tie a long piece of string to the neck of the barometer, then lower the barometer from the roof of the skyscraper to the ground. The length of the string plus the length of the barometer will equal the height of the building.

This highly original answer so incensed the examiner that the student was failed immediately. The student appealed on the grounds that his answer was indisputably correct, and the university appointed an independent arbiter to decide the case.

The arbiter judged that the answer was indeed correct, but did not display any noticeable knowledge of physics. To resolve the problem it was decided to call the student in and allow him six minutes in which to provide a verbal answer that showed at least a minimal familiarity with the basic principles of physics.

For five minutes the student sat in silence, forehead creased in thought. The arbiter reminded him that time was running out, to which the student replied that he had several extremely relevant answers, but couldn’t make up his mind which to use. On being advised to hurry up the student replied as follows:

“Firstly, you could take the barometer up to the roof of the skyscraper, drop it over the edge, and measure the time it takes to reach the ground. The height of the building can then be worked out from the formula H = 0.5g x t squared. But bad luck on the barometer.”

“Or if the sun is shining you could measure the height of the barometer, then set it on end and measure the length of its shadow. Then you measure the length of the skyscraper’s shadow, and thereafter it is a simple matter of proportional arithmetic to work out the height of the skyscraper.”

“But if you wanted to be highly scientific about it, you could tie a short piece of string to the barometer and swing it like a pendulum, first at ground level and then on the roof of the skyscraper. The height is worked out by the difference in the gravitational restoring force T =2 pi sqr root (I /9).”

“Or if the skyscraper has an outside emergency staircase, it would be easier to walk up it and mark off the height of the skyscraper in barometer lengths, then add them up.”

“If you merely wanted to be boring and orthodox about it, of course, you could use the barometer to measure the air pressure on the roof of the skyscraper and on the ground, and convert the difference in millibars into feet to give the height of the building.”

“But since we are constantly being exhorted to exercise independence of mind and apply scientific methods, undoubtedly the best way would be to knock on the janitor’s door and say to him ‘If you would like a nice new barometer, I will give you this one if you tell me the height of this skyscraper’.”

The obvious moral here is that education should not consist merely of stuffing students’ heads full of information and formulae to be memorized by rote and regurgitated upon demand, but of teaching students how to think and solve problems using whatever tools are available. In the mangled words of a familiar phrase, students should be educated in a way that enables them to figure out their own ways of catching fish, not simply taught a specific method of fishing.

Read Cracking Creativity: The Secrets of Creative Genius

Creative Thinking Technique: Combine Ideas from Different Domains

Many breakthroughs are based on combining information from different domains that are usually not thought of as related. Integration, synthesis both across and within domains, is the norm rather than the exception. Ravi Shankar found ways to integrate and harmonize the music of India and Europe; Paul Klee combined the influences of cubism, children’s drawings, and primitive art to fashion his own unique artistic style; Salvador Dali integrated Einstein’s theory of relativity into his masterpiece Nature Morte Vivante, which artistically depicts several different objects simultaneously in motion and rest. And almost all scientists cross and recross the boundaries of physics, chemistry, and biology in the work that turns out to be their most creative.

ASK PEOPLE IN DIFFERENT DOMAINS FOR IDEAS. Another way to combine talent is to elicit advice and information about your subject from people who work in different domains. Interestingly, Leonardo da Vinci met and worked with Niccolô Machiavelli, the Italian political theorist, in Florence in 1503. The two men worked on several projects together, including a novel weapon of war: the diversion of a river. Professor Roger Masters of Dartmouth College speculates that Leonardo introduced Machiavelli to the concept of applied science. Years later, Machiavelli combined what he learned from Leonardo with his own insights about politics into a new political and social order that some believe ultimately sparked the development of modern industrial society.

Jonas Salk, developer of the vaccine that eradicated polio, made it a standard practice to interact with men and women from very different domains. He felt this practice helped to bring out ideas that could not arise in his own mind or in the minds of people in his own restricted domain. Look for ways to elicit ideas from people in other fields. Ask three to five people who work in other departments or professions for their ideas about your problem. Ask your dentist, your accountant, your mechanic, etc. Describe the problem and ask how they would solve it.

Listen intently and write down the ideas before you forget them. Then, at a later time, try integrating all or parts of their ideas into your idea. This is what Robert Bunsen, the chemist who invented the familiar Bunsen burner, did with his problem. He used the color of a chemical sample in a gas flame for a rough determination of the elements it contained. He was puzzled by the many shortcomings of the technique that he and his colleagues were unable to overcome, despite their vast knowledge of chemistry. Finally, he casually described the problem to a friend, Kirchhoff, a physicist, who immediately suggested using a prism to display the entire spectrum and thus get detailed information. This suggestion was the breakthrough that led to the science of spectrography and later to the modern science of cosmology.

EXAMPLES. Physicists in a university assembled a huge magnet for a research project. The magnet was highly polished because of the required accuracy of the experiment. Accidentally, the magnet attracted some iron powder that the physicists were unable to remove without damaging the magnet in some way. They asked other teachers in an interdepartmental meeting for their ideas and suggestions. An art instructor came up with the solution immediately, which was to use modeling clay to remove the powder.

The CEO of a software company looked for ways to motivate employees to participate more actively in the creative side of the business. They wanted employee ideas for new processes, new products, improvements, new technologies and so on. He tried many things but nothing seemed to excite and energize employees to become more creative.

One evening at a dinner with some of his friends he mentioned his problem and asked them for ideas. After a brief discussion, a friend who was a stockbroker suggested thinking ways to parallel ideas with stocks. Look for ways for people to buy and sell ideas the same way his customers study, buy and sell stocks on the stock exchange.

The CEO was intrigued with the novelty of the idea and he and his stockbroker friend looked for patterns between the stock exchange and an internal employee program. They blended the architecture of the stock exchange with the internal architecture of their company’s internal market to create the company’s own stock exchange for ideas. Their exchange is called Mutual Fun. Any employee can propose that the company acquire a new technology, enter a new business, make a new product or make an efficiency improvement. These proposals become stocks, complete with ticker symbols, discussion lists and e-mail alerts.

 Fifty-five stocks are listed on the company’s internal stock exchange. Each stock comes with a detailed description — called an expectus, as opposed to a prospectus — and begins trading at a price of $10. Every employee gets $10,000 in “opinion money” to allocate among the offerings, and employees signal their enthusiasm by investing in a stock and, better yet, volunteering to work on the project. Employees buy or sell the stocks, and prices change to reflect the sentiments of the company’s executives, engineers, computer scientists, project managers, marketing, sales, accountants and even the receptionist.

The result has been a resounding success. Among the company’s ‘ core technologies are pattern-recognition algorithms used in military applications, as well as for electronic gambling systems at casinos. A member of the administrative staff, with no technical expertise, thought that this technology might also be used in educational settings, to create an entertaining way for students to learn history or math. She started a stock called Play and Learn (symbol: PL), which attracted a rush of investment from engineers eager to turn her idea into a product. Lots of employees got passionate about the idea and it led to a new line of business.

INVITE OTHER DEPARTMENTS TO JOIN YOUR BRAINSTORMING SESSION. If you’re brainstorming a business problem in a group, try asking another department to join yours. For example, if you are in advertising and want to create a new product advertising campaign, ask people from manufacturing to join your session. Separate the advertising and manufacturing people into two groups. Each group brainstorms for ideas separately. Then combine the groups and integrate the ideas.


For more ideas on how to combine dissimilar subjects to create new ideas read Cracking Creativity: The Secrets of Creative Genius by Michael Michalko