Posts Tagged ‘creative genius’

The Lessons I Learned from Nikola Tesla and my Grandfather that Influenced my Life

 

tesla

Consider what Nikola Tesla accomplished with his mind’s eye. He is the man who invented the modern world. He was a physicist first, and electrical engineer and mechanical engineer later. Tesla invented the AC electricity, electric car, radio, the bladeless turbine, wireless communication, fluorescent lighting, the induction motor, a telephone repeater, the rotating magnetic field principle, the poly-phase alternating current system, alternating current power transmission, Tesla Coil transformer, and more than 700 other patents.

At an early age Tesla created an imaginary world where he pretended to reside. In his autobiography “My Inventions,” Tesla described: Every night and sometimes during the day, when alone, I would start out on my journeys, see new places, cities and countries, live there, meet with people, make friendships and acquaintances and, however unbelievably it is a fact that they were just as dear to me as those in actual life and not a bit less intense in their manifestations. He used to practice this kind of mind-journey constantly until he was about seventeen, at which age he began creating inventions for the modern world.

When he became an adult, he would imagine himself in the future and observe what devices and machines they had. Tesla imagined himself to be a time traveler. He would note how they created energy, how they communicated, and lived.  He could picture them all as if they were real in his imaginary mind. He would conduct imaginary experiments and collect data. He described that he needed no models, drawings or experiments in a physical place.

When he attained an idea for a new machine, he would create the machine in his imagination. Instead of building a model or prototype, he would conceive a detailed mental model. Then he would leave it running in his imagination. His mental capacity was so high that after a period of time he would calculate the wear and tear of the different parts of his imaginary machine. Always his results would prove to be incredibly accurate.

Tesla believed he was the greatest genius on earth and acted the part every day. He refused to share the Noble prize with Thomas Edison in 1915 because he considered Edison unworthy of sharing a stage with him. He also vowed he would never accept the prize if they awarded it to Edison before him. Consequently, neither received the prize.

Nicola Tesla taught me the value of being self-confident. A self-confident attitude, to me, is more important than facts. It is more important than the past, than education, than money, than circumstances, then failure, then successes, then what other people think or say or do.

Many years ago I met my grandfather Dido by chance as he was walking home from work. He had a rough day. His car conked out and he was not able to repair it. The auto shop picked it up and he was told it was going to be an expensive repair. Earlier in the day his best friend had a massive heart attack and was in serious condition in the hospital. Additionally, he was told his work hours were being cut back because of the lack of orders. He told me all this and then he walked in stony silence the rest of the way.

On arriving, he invited me in. As we walked toward the front door, he paused briefly at a small tree, closed his eyes and touched the tips of the branches with both hands. After opening the door, he underwent an amazing transformation. His tanned face was wreathed in smiles and he hugged my grandmother and gave her a big kiss. Afterward, I asked him why he had stopped at the tree and touched the branches. “Oh,” he laughed, “that’s my trouble tree,” he replied. “I know I can’t help having troubles, but one thing for sure, troubles don’t belong in my house with my wife and family. So I just hang them up on the tree every night when I come home. Then in the morning, I pick them up again.” “Funny thing is,” he smiled, “when I come out in the morning to pick them up, there aren’t nearly as many as I remember hanging up the night before.”

My grandfather taught me that we cannot change the inevitable, but the remarkable thing is that if we have the right attitude we have a choice how we handle it.

 

(Michael Michalko is the highly-acclaimed author of Thinkertoys: A Handbook of Creative Thinking Techniques; Cracking Creativity: The Thinking Strategies of Creative Geniuses;  Thinkpak: A Brainstorming Card Deck, and Creative Thinkering: Putting Your Imagination to Work. http://www.creativethinking.net)

 

 

 

St. IGNATIUS’S EXERCISE ON HOW TO CHANGE YOUR PERSPECTIVE TOWARD PROBLEMS

Ignatius-Loyola

Problems frequently give a vague sense of disquiet, a sense of things not going in quite the direction you had planned however, you have no clear thoughts of what the ‘right’ direction might be. This exercise that follows was suggested by St Ignatius Loyola (some 500 years ago).

It allows you to explore problems at a ‘deeper’ subconscious level by changing your perspective from the external to the personal. He suggested imaging yourself at different ages while experimenting with new ideas to solve problems. Begin by relaxing in a calm, quiet environment then:

  • Imagine your infancy, in your imagination think back to when you were a small, helpless, dependent, infant born into a particular environment
  • Imagine being5, imagine you are now 5, how did it feel to be 5? Can you picture images and memories from that time?
  • Imagine being 12, 25, 40, 65, after a few minutes, project your imagination to what you were like when you were 12, did you worry? What was important to you? What was your world like? Using the same method of thinking ask yourself the same questions for age 25 and 40 and 65.
  • Imagine being very, very old; imagine looking in the mirror when you are very old. What do you see? How you feel about yourself? Who are you? Take a retrospective look over your whole life – what really mattered? What would you have like to have done differently? Are you ready to die?
  • Imagine your death, what are your thoughts as you imagine yourself dying? Imagine your closest friends and relatives, what would they be thinking about you?
  • Imagine being reborn, after a few, or when you feel ready, imagine you are going to be reborn. You can be reborn, anywhere at any time as anything you desire. What would your choices be?
  • Return, when you feel ready to open your eyes, gradually look around you as if seeing everything for the first time.

All of us can change our perspectives by following St. Ignatius’s exercise. Peggy Dupra a middle school principal had a problem with her female pupils who were experimenting with lipstick. The girls were kissing the mirrors in the bathroom leaving their lip prints on bathroom mirrors. The maintenance department constantly asked her to have the pupils stop this practice. Peggy lectured, pleaded and threatened the girls with detention, but nothing seemed to help.

She and I discussed the situation, and I suggested the St. Ignatius technique which uses your imagination to change your age and circumstances both past and future. This exercise re-creates earlier and future selves. After a few moments, you’ll become aware of random thoughts, associations and images from past and future years. Eventually these thoughts and images will be accompanied by emotions–in some instances, very intense ones. This emotions are stimulated by the brain’s attempt to reconcile and synthesize the disparity the real “you” and the imagined “you.”

While the brain knows the imagined you isn’t really you, it will still respond from moment to moment as if it were real. You won’t just remember events; you will remember how you felt about them.

Peggy tried the exercise. She began remembering all sorts of past friends when you was twelve years old, and how she really felt at the time about the world. She more she remembered the more she felt like a young school girl. She laughed when she thought of her best friend Ellen of years ago and how they always tried to gross each other out in a game they called “Yechhhh!” She remembered one time when they spread the rumor that the cafeteria was using sewage water from a ditch to make pizzas to save water. The students refused to eat the pizza.

Suddenly thinking about how they grossed out students she got an insight on how to solve her bathroom lipstick problem. After conspiring with the janitor, she invited the girls into the bathroom saying she wanted them to witness the extra work they made for the janitor cleaning their lip prints. The janitor came in and stepped into an open toilet stall. He dipped his squeegee into a toilet, shook off the excess toilet water then used the squeegee to clean the mirrors. Changing her perspective from an adult to a young girl introduced a clever solution to her problem that she could not have discovered using her usual way of thinking.

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Discover the creative thinking techniques and strategies used by creative geniuses throughout history to get their breakthrough ideas.

http://www.amazon.com/Cracking-Creativity-Secrets-Creative-Genius/dp/1580083110

 

 

What You Can Learn About Creative Thinking from Vincent Van Gogh and the Wright Brothers

VANGOGH4.

What would you think of someone who said, “I would like to have a cat provided it barked”?

The common desire to achieve or create great things provided it’s something that can be easily willed or wished is precisely equivalent. The principles of behavior that lead to great accomplishments are no less rigid than the biological principles that determine the characteristics of cats. Consider, for example, the life of Vincent Willem van Gogh.

He is generally considered to be one of history’s greatest artists and had a far-reaching influence on 20th-century art. His artistic accomplishments are not an accident, not a result of some easily magic trick or secret, but a consequence of his nature to work persistently on his art every day. He revered “the doing” in art. He wrote about his hard work many times to his brother Theo. In a letter he sent Theo in 1885 he stated that one can only improve by working on your art, and many people are more remarkably clever and talented than him, but what use is it if they do not work at it.

He did not begin painting until his late twenties, completing many of his best-known works during the last two years of his life. In the first years of his career, van Gogh displayed no natural talent. David Sweetman’s biography “Van Gogh: His Life and His Art” gives a detailed description of his intention to be an artist and his insatiable capacity for hard work to become one. He turned himself into an artist by acting like an artist and going through the motions by turning out mostly bad innumerable rough sketches, day and night. In Van Gogh’s own words he said, “In spite of everything I shall rise again and take up my pencil and draw and draw.”

He received mild encouragement from his cousin, Anton Mauve, who supplied him with his first set of watercolors. Mauve was a successful artist and gave Vincent some basic instructions in painting. Their relationship was short-lived, however, as Vincent was incapable of receiving criticism of his art from Mauve. Mauve even went to Vincent’s father and told him it would be better for Vincent to stop attempting to be an artist and find another occupation that better suited his talent. It was then that Vincent unveiled what art critics label as his first “masterpiece,” The Potato Eaters.

VANGOGH3

He turned himself into an artist by acting like an artist and going through the motions by turning out mostly bad innumerable rough sketches, day and night.

Lesson #1 Stop waiting and Take Action

The lesson about creative thinking I learned from Van Gogh is action. Just do it. Stop waiting and start working toward what you want. What we think, or what we know, or what we believe something is, in the end, of no consequence. The only consequence is what we actually do. In Van Gogh’s own words “Just slap anything on when you see a blank canvas staring you in the face like some imbecile. You don’t know how paralyzing that is, that stare of a blank canvas is, which says to the painter, “You can’t do a thing.” The canvas has an idiotic stare and mesmerizes some painters so much that they turn into idiots themselves. Many painters are afraid in front of the blank canvas, but the blank canvas is afraid of the real, passionate painter who dares and who has broken the spell of ‘you can’t’ once and for all by getting to work and painting.”

It was very difficult at times, but he believed nobody can do as he wishes in the beginning when you start but everything will be all right in the end. Each day he made every effort to improve because he knew making beautiful paintings meant painstaking work, disappointment and perseverance. In the end, Van Gogh produced 2000 works of art between 1880 and 1890 (1100 paintings and 900 sketches). That’s 4 works of art a week for a decade, and he didn’t start making art until his mid twenties.

LESSON #2 Commit and Go through the motions

Van Gogh taught me to commit myself to a desire and go through the motions of working toward accomplishing it. His advice was if you do nothing, you are nothing. You must keep working and keep working come what may. Even when your final goal is not clear, the goal will become clearer and will emerge slowly but surely, much as the rough drawing turns into a sketch, and the sketch into a painting through the serious work done on it and through the elaboration of the original vague idea and through the consolidation of your fleeting and passing thoughts on it as you work.

Think of the first airplane. On December 8, 1903, Samuel Pierpont Langley, a leading government-funded scientist, launched with much fanfare his flying machine on the Potomac. It plummeted into the river. Nine days later, Orville and Wilbur got the first plane off the ground. Why did these bicycle mechanics succeed when a famous scientist failed? It was because Langley did the mental work and hired other people to build and execute his intellectual design for him.

vangogh5

Lesson #3 Do your own work.

The Wright brothers did their own work. When they were working and producing creative ideas and products they were replenishing neurotransmitters which are linked to genes that are being turned on and turned off in response to what the brain is doing, which in turn is responding to challenges. When they constantly worked on their idea and learned through trial and error, they were energizing their brains by increasing the number of contacts between neurons. The more times they act, the longer they worked the more active their brains became and the more creative they became.

Their creative brains made them aware of the range of many potentials for each adjustment they built into their design. Their personal observations of the many alternative potentials led them to constantly change and modify their ideas that created the airplane.

When they constantly worked on their idea and learned through trial and error, they were energizing their brains by increasing the number of contacts between neurons. I like to metaphorically compare working toward a desired goal such the goals of Van Gogh and the Wright brothers to weight lifting.  If you want to build muscles you lift weights. If the weight is heavy enough it’s going to damage the muscles. That damage creates a chemical cascade and reaches into the nuclei of your muscle cells, and turns on genes that make proteins and build up muscle fibers. Those genes are only turned on in response to some environmental challenge. That’s why you’ve got to keep lifting heavier and heavier weights. The phrase, “No pain no gain,” is literally true in this case. Interaction with the environment turns on certain genes which otherwise wouldn’t be turned on; in fact, they will be turned off if certain challenges aren’t being faced.

Lesson #4 Don’t wait for perfect moments

Don’t wait until everything is just right. It will never be perfect. There will always be challenges, obstacles and less than perfect conditions. So what. Get started now. With each step you take, you will grow stronger and stronger, more and more skilled, more and more self-confident and more and more successful. We are what we repeatedly do.

Start Now

To get a feel for how powerful the simple act of just starting something creative and working on it is, try the following thought experiment.

THOUGHT EXPERIMENT

Take out a sheet of paper and at least ten items, money, credit cards, keys, coins, etc. Your task is to create an assemblage that metaphorically represents you.

Here are the guidelines:

  1. In your mind, imagine an assemblage that metaphorically represents you. Do not think about the materials you have in hand. Instead think about the shape you would like your assemblage to have. What are the rhythms you want? The texture? Where would you want it to be active? Passive? Where do things overlap and where are they isolated? Think in general and overall pictures, and leave out the details. Do not think about great art; just think about who you are and what how you can represent yourself metaphorically.
  2. Now form a more specific idea of the final assemblage. As you look at the paper, imagine the specific assemblage you want to create. Make sure you’ve formed this image before you move to the next step.
  3. Place the items on the paper. Since the composing stage is already done, it’s time to bring your creation into physical existence. How closely did it come to your conception? Become a critic for the assemblage. Look at it for its own sake, independent of the fact that you have created it. Take the items off and go through the same procedures. Make the assemblage again.
  4. By conceptualizing and using materials you had on hand, you created an artistic assemblage from nothing.
  5. If you performed this exercise every day with different objects for five to ten straight days you will find yourself becoming an artist who specializes in rearranging unrelated objects into art. It is the activity that turns on the synaptic transmissions in your brain that turn on the genes that are linked to what you are doing, which is responding to an environmental challenge (i.e., the making of an assemblage).

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Michael Michalko author of THINKERTOYS, CRACKING CREATIVITY, THINKPAK, and CREATIVE THINKERING www.creativethinking.net

If You Do Nothing, You Are Nothing

i am what i do

All art is a reaction to the first line drawn. Unless the artist sits in front of the canvas and paints, there can be no art. Unless the writer sits down and starts to type, there can be no book. Unless the musician plays their instrument, there can be no music. Unless the sculptor begins to chip away at the marble, there can be no sculpture. Unless the explorer begins the journey, there can be no discovery. It is the same with everything in life, even civilizations; unless one acts, nothing is created or discovered.

What you think or believe is of no consequence. The only thing of consequence is what you do. Read Michael Michalko’s article about taking action at:   http://creativethinking.net/?p=882

 

Combine What Exists Into Something That Has Never Existed Before

combine

In his book Scientific Genius, psychologist Dean Keith Simonton of the University of California at Davis suggests that geniuses are geniuses because they form more novel combinations than the merely talented. He suggests that, in a loose sense, genius and chance are syn­onymous. His theory has etymology behind it: cogito—”I think”—originally connoted “shake together”; intelligo, the root of intelligence, means to “select among.” This is a clear, early intuition about the utility of permitting ideas and thoughts to randomly combine with each other and the utility of selecting from the many the few to retain.

Because geniuses are willing to entertain novel combinations, they are able to discard accepted ideas of what is possible and imagine what is actually possible. In 1448 Johannes Gutenberg combined the mecha­nisms for pressing wine and punching coins to produce movable type, which made printing practical. His method of producing movable type endured almost unchanged for five centuries. The laws of heredity on which the modern science of genetics is based are the result of the work of Gregor Mendel, who combined mathematics and biology to create this new science. Thomas Edison’s invention of a practical system of lighting involved combining wiring in parallel circuits with high-resis­tance filaments in his bulbs, two things that were not considered possi­ble.

Imagine, for a moment, that thought is water. When you are born, your mind is like a glass of water. Your thinking is inclusive, clear, and fluid. All thoughts intermingle and combine with each other and make all kinds of connections and associations. This is why children are spontaneously creative.

ICE CUBES

In school you are taught to define, label, and segregate what you learn into separate categories. The various categories are kept separate and not allowed to touch each other, much like ice cubes in a tray. Once something is learned and categorized, your thoughts about it become frozen. For example, once you learn what a can opener is, whenever someone mentions “can opener” you know exactly what it is.

You are taught, when confronted with a problem, to examine the ice cube tray and select the appropriate cube. Then you take the cube and put it in a glass, where your thinking heats and melts it. For example, if the problem is to “improve the can opener,” the glass will contain all you have learned about can openers, and nothing more. You are thinking exclusively, which is to say you are thinking only about what you have learned about the can opener. No matter how many times the water is stirred, you end up creating, at best, a marginal improvement.

Now if you take another cube (e.g., vegetables) and put it in the same glass with the can-opener cube, your thinking will heat and melt both together into one fluid. Now when you stir the water, more associations and connections are made and the creative possibilities become immensely greater. The vegetable cube, once blended with the can opener cube, might inspire you to think of how vegetables open in nature. For example, when pea pods ripen, a seam weakens and opens, freeing the peas. This might inspire you to come up with novel ideas. You could, for example, manufacture cans with a weak seam that can be pulled to open the can. You cannot get this kind of novel idea using your conventional way of thinking.

What happens when you think simultaneously, in the same mental space, about a showerhead and a telescope orbiting the earth? When the Hubble telescope was first launched into space, scientists were unable to focus it. It could be salvaged only by refocusing it using small, coin-shaped mirrors.

The problem was how to deliver and insert the mirrors precisely into the right location. The right location was in a light bundle behind the main mirror. The NASA experts who worked on the problem were not able to solve it, and the multi-million dollar Hubble seemed doomed.

NASA engineer James Crocker was attending a seminar in Germany when he found out about the problem. He worked on it all day. Tired, he stepped into the shower in his hotel room. The European-style shower included a shower-head on an arrangement of adjustable rods. While manipulating the shower-head, Crocker suddenly realized that similar articulated arms bearing coin-shaped mirrors could be-extended into the light bundle from within a replacement axial instrument by remote control. Blending the Hubble telescope and the shower-head in the same mental space simultaneously created this remarkable solution.

Crocker was startled by his sudden realization of the solution that was immensely comprehensive and at the same time immensely detailed. As Crocker later said “I could see the Hubble’s mirrors on the shower head.” Crocker solved it by thinking unconventionally by forcing connections between two remotely different subjects.

Look at the following illustration A of the rectangle and circle. Both are separate entities. Now look at the extraordinary effect they have when blended together in illustration B. We now have something mysterious, and it seems to move. You can get this effect only by blending the two dissimilar objects in the same space.

 SQUARE.AND.CIRCLE

Combining a rectangle with the circle changed our perception of the two figures into something extraordinary. In the same way, combining information in novel ways increases your perceptual possibilities to create something original.

Creativity in all domains, including science, technology, medicine, the arts, and day-to-day living, emerges from the basic mental operation of conceptually blending dissimilar subjects. When analyzed, creative ideas are always new combinations of old ideas. A poet does not generally make up new words but, instead, puts together old words in a new way. The French poet Paul Valery is quoted by Jacques Hadamard in Jacque Hadamard: a universal mathematician by T.O. Shaposhnikova as saying “It takes two to invent anything. The one makes up combinations; the other chooses, recognizes what he wishes and what is important to him in the mass of things which the former has imparted to him.” Valery related that when he writes poetry he used two thinking strategies to invent something new in writing poetry. With one strategy, he would make up combinations; and with the other he would choose what is important.

Think for a moment about a pinecone. What relationship does a pinecone have with the processes of reading and writing? In France, in 1818, a nine-year-old boy accidentally blinded himself with a hole puncher while helping his father make horse harnesses. A few years later the boy was sitting in the yard thinking about his inability to read and write when a friend handed him a pinecone. He ran his fingers over the cone and noted the tiny differences between the scales. He conceptually blended the feel of different pinecone scales with reading and writing, and realized he could create an alphabet of raised dots on paper so the blind could feel and read what was written with it. In this way Louis Braille opened up a whole new world for the blind. Braille made a creative connection between a pinecone and reading. When you make a connection between two unrelated subjects, your imagination will leap to fill the gaps and form a whole in order to make sense of it.

Just as conceptual blending allows information to intermingle in the mind of the individual, when people swap thoughts with others from different fields it creates new, exciting thinking patterns for both. As Brian Arthur argues in his book The Nature of Technology, nearly all technologies result from combinations of other technologies, and new ideas often come from people from different fields combining their thoughts and things. One example is the camera pill, invented after a conversation between a gastroenterologist and a guided missile designer.

Suppose you are watching a mime impersonating a man taking his dog out for a walk. The mime’s arm is outstretched as though holding the dog’s leash. As the mime’s arm is jerked back and forth, you “see” the dog straining at the leash to sniff this or that. The dog and the leash become the most real part of the scene, even though there is no dog or leash. In the same way, when you make connections between your subject and something that is totally unrelated, your imagination fills in the gaps to create new ideas. It is this willingness to use your imagination to fill in the gaps that produces the unpredictable idea. This is why Einstein claimed that imagination is more important than knowledge.

Michael Michalko is a highly acclaimed expert on creative thinking and conducts seminars and think tanks worldwide. He has published several books which contain creative thinking techniques and are available at Amazon, Barnes&Noble, and major bookstores worldwide. http://www.creativethinking.net

Our Life Is What Our Attitude Makes It

attitude

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 their 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 some juggling act in which whirling plates are balanced on top of long thin sticks.

The Greek philosopher Diogenes was once noticed begging from a statue. His friends were puzzled and alarmed at this behavior. Asked the reason for this pointless behavior, Diogenes replied, AI am practicing the art of being rejected.@ By pretending to be rejected continually by the statue, Diogenes was beginning to understand the mind of a beggar. Every time we pretend to have an attitude and go through the motions of having that attitude, we trigger the emotions we create and strengthen the attitude we wish to cultivate.

Power of the Imagination

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, imagine it as though you are truly experiencing it in the present. It is 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.

This is how Air Force Colonel George Hall survived his harrowing experience during the Viet Nam war. He was a POW locked in the dark box of a North Vietnamese prison for seven grueling years. Every day Hall imagined he was a golf professional and played a full game of golf in his imagination. One week after he was released from his POW camp, he entered the Greater New Orleans Open and shot a 76.

The surrealist artist, Salvador Dali, was pathologically shy as a child. He hid in closets and avoided all human contact until his uncle counseled him on how to overcome this shyness. He advised Dali to be an actor and to pretend he was an extrovert genius. At first Dali was full of doubts as he began to act the part. When he adopted the pose of an extrovert and made it obvious to himself and others by acting the part, his brain soon adapted itself to the role he was playing. He became what he pretended to be. Dali’s acting the part changed his psychological state.

As you imagine yourself to be, so shall you be, and you are that which you imagine. Another remarkable example is Victor Frankl’s account of being in a concentration camp in his book From Death-Camp to Existentialism. While most of his fellow inmates lost hope and died, Frankl reframed his experience and pretended to be an academic lecturer and occupied his mind creating lectures he would give after he was released from camp—lectures that would draw upon his experiences in the camp. He took a hopeless situation and transformed it in his mind to a source of rich experiences that he could use to help others overcome potentially deadening and hopeless situations.

Consider what Nikola Tesla accomplished with his imagination. He is the man who invented the modern world. He was a physicist first, and electrical engineer and mechanical engineer later. Tesla invented AC electricity, the electric car, radio, the bladeless turbine, wireless communication, fluorescent lighting, the induction motor, a telephone repeater, the rotating magnetic field principle, the poly-phase alternating current system, alternating current power transmission, Tesla Coil transformer, and more than 700 other patents.

At an early age Tesla created an imaginary world where he pretended to reside. In his autobiography “My Inventions,” Tesla described: “Every night and sometimes during the day, when alone, I would start out on my journeys, see new places, cities and countries, live there, meet with people, make friendships and acquaintances and, however unbelievably it is a fact that they were just as dear to me as those in actual life and not a bit less intense in their manifestations.” He used to practice this kind of mind-journey constantly.

When he became a physicist, he would imagine himself in the future and observe what devices and machines they had. Tesla imagined himself to be a time traveler. He would note how they created energy, how they communicated, and lived. He could picture them all as if they were real in his imaginary mind. He would conduct imaginary experiments and collect data. He described that he needed no models, drawings or experiments in a physical place.

When he attained an idea for a new machine, he would create the machine in his imagination. Instead of building a model or prototype, he would conceive a detailed mental model. Then he would leave it running in his imagination. His mental capacity was so high that after a period of time, he would calculate the wear and tear of the different parts of his imaginary machine. Always his results would prove to be incredibly accurate.

The problem most of us have is that when we look at our lives, we see only who we are not and dwell on that. Instead, imagine who you want to be and go through the motions of being it. You will become who you pretend to be.

– See more at: http://creativethinking.net

How can a beehive inspire an idea on how to de-ice power lines during ice storms

beehive

If one particular thinking strategy stands out about creative genius, it is the ability to make juxtapositions that elude mere mortals. Call it a facility to connect the unconnected that enables them to see relationships to which others are blind. They set their imagination in motion by using unrelated stimuli and forcing connections with their subject.

Leonardo Da Vinci discovered that the human brain cannot deliberately concentrate on two separate objects or ideas, no matter how dissimilar, without eventually forming a connection between them. No two inputs can remain separate in your mind no matter how remote they are from each other.

In tetherball, a ball is fastened to a slender cord suspended from the top of a pole. Players bat the ball around the pole, attempting to wind its cord around the pole above a certain point. Obviously, a tethered ball on a long string is able to move in many different directions, but it cannot get away from the pole. If you whack at it long enough, eventually you will wind the cord around the pole. This is a closed system.

Like the tetherball, if you focus on two subjects for a period of time, you will see relationships and connections that will trigger new ideas and thoughts that you cannot get using your usual way of thinking. Da Vinci’s knack to make remote connections was certainly at the basis of Leonardo’s genius to form analogies between totally different systems. He associated the movement of water with the movement of human hair, thus becoming the first person to illustrate in extraordinary detail the many invisible subtleties of water in motion. His observations led to the discovery of a fact of nature which came to be called the Law of Continuity.

When you make a connection between two unrelated subjects, your imagination will leap to fill the gaps and form a whole in order to make sense of it. Suppose you are watching a mime impersonating a man taking his dog out for a walk. The mime’s arm is outstretched as though holding the dog’s leash. As the mime’s arm is jerked back and forth, you “see” the dog straining at the leash to sniff this or that. The dog and the leash become the most real part of the scene even though there is no dog or leash. In the same way, when you make connections between your subject and something that is totally unrelated, your imagination fills in the gaps to create new ideas. It is this willingness to use your imagination to fill in the gaps that produces the unpredictable idea. This is why Einstein claimed that imagination is more important than knowledge.

Engineers working for a power company in the northwest were struggling with the problem of 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. It is not possible to think unpredictably by looking harder and longer in the same direction. When your attention is focused on a subject, a few patterns are highly activated in your brain and dominate your thinking. These patterns produce only 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 think about something that is not related, different, unusual patterns are activated. If one of these newer patterns relates to one of the first patterns, a connection will be made.

This is what the engineers did. Using a technique from my book Thinkertoys on how to force connections between a challenge and a random stimulus, they randomly picked the subject “Beehives.” Then they listed a variety of things that are associated with beehives and listed them.

Included were:

  •  Bees colonize and live in beehives.
  • Beehives are used to store honey and pollen.
  • Honey is a sweet food.
  • Ancient Egyptians used honey to embalm corpses.
  • Beehives are a favorite food of bears.
  • Bears will climb trees to get the hive or vibrate the tree to make it fall.
  • Bees communicate with each other with vibrating wings.
  • Vibrating wings also make it possible for bees to hover.

The associations with beehives and vibrating wings and bears vibrating trees got them all interested in the principle of vibrational motion as the answer. Vibrate the ice off the power lines. But how? How can we use vibration to help solve the problem?

One engineer remarked that seeing bees hover like helicopters that reminded him of the powerful downwash from a helicopter’s blades. 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.

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For more information about forcing connections between dissimilar subjects, review Michael Michalko’s THINKERTOYS https://imagineer7.wordpress.com/2015/02/07/change-the-way-you-look-at-things-and-the-things-you-look-at-change/

Change the way you look at things and the things you look at change

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 is occurring. The illustration below appears to have no meaning.  If you continue looking at it from your initial perspective, you will see nothing.  If, however, you step back from your computer and view the illustration from a distance or from an angle, you will see a message.

bad eyes

When Leonardo daVinci finished a painting, he would always look at it from a far distance to get a different perspective.  By distancing yourself from the pattern, you changed your perception of it, thereby allowing yourself to see something that you could not otherwise see. 

Our perceptual positions determine how we view things.  In the illustration below, if you sit still and focus on the dot in the center, you see two broken line circles.  However, if you change your perspective by moving your head backwards and forward, something strange will happen.

moving circles

 

Michael Michalko  http://www.amazon.com/Creative-Thinkering-Putting-Your-Imagination/dp/160868024X/ref=sr_1_1?ie=UTF8&qid=1316698657&sr=8-1

 

 

What Would You Have Done?

report carda

The above is a copy of a school report for Nobel prize winner, Dr John Gurdon, from his days studying Biology at Eton College. His professor a Mister Gaddum noted that for Gurdon to study science would be a sheer waste of time, both on his part, and on the part of those teachers who have to teach him.

My question is: If you were John’s parent, would you have discouraged his interest in science and directed his attention to another field of study?

Dr. Gurdon said that this was the only item about him that he ever framed. It hangs on a wall behind his desk as a reminder to trust your own instincts. It was at Oxford as a postgraduate student that he published his groundbreaking research on genetics and proved for the first time that every cell in the body contains the same genes. He did so by taking a cell from an adult frog’s intestine, removing its genes and implanting them into an egg cell, which grew into a clone of the adult frog.  The idea was controversial at the time because it contradicted previous studies by much more senior scientists, and it was a decade before the then-graduate student’s work became widely accepted.

But it later led directly to the subsequent discovery by Prof Yamanaka that adult cells can be “reprogrammed” into stem cells for use in medicine. This means that cells from someone’s skin can be made into stem cells which, in turn, can turn into any type of tissue in the body, meaning they can replace diseased or damaged tissue in patients.

Not allowing yourself to get discouraged by others is the most important lesson Dr. Gurdon learned in his life. Trust your own instincts. Albert Einstein was expelled from school because his attitude had a negative effect on serious students; he failed his university entrance exam and had to attend a trade school for one year before finally being admitted; and was the only one in his graduating class who did not get a teaching position because no professor would recommend him. One professor said Einstein was “the laziest dog” the university ever had. Beethoven’s parents were told he was too stupid to be a music composer. Charles Darwin’s colleagues called him a fool and what he was doing “fool’s experiments” when he worked on his theory of biological evolution.  Walt Disney was fired from his first job on a newspaper because “he lacked imagination.” Thomas Edison had only two years of formal schooling, was totally deaf in one ear and was hard of hearing in the other, was fired from his first job as a newsboy and later fired from his job as a telegrapher; and still he became the most famous inventor in the history of the U.S.

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(Michael Michalko is the author of Thinkertoys: A Handbook of Creative Thinking Techniques; Cracking Creativity: The Thinking Strategies of Creative Geniuses; Thinkpak: A Brainstorming Card Deck, and Creative Thinkering: Putting Your Imagination to Work. http://www.creativethinking.net)

Creative Thinking Technique: Combine Ideas from Different Domains

combine.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.

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cc.3For more ideas on how to combine dissimilar subjects to create new ideas read Cracking Creativity: The Secrets of Creative Genius by Michael Michalko http://www.amazon.com/Cracking-Creativity-Secrets-Creative-Genius/dp/1580083110/ref=pd_sim_b_2?ie=UTF8&refRID=16NCRBEMHRCEQ1RAZG5V