But original thinking could be declining among students because of the growing emphasis on test-taking in schools.
Scientists don’t usually have a reputation for being very creative. They have to adhere to the scientific method, use statistics and data, and carefully measure their results—activities that would appear to take the magic out of the creative process, like having to explain your own joke. But few would dispute that the great scientific and technological innovators were creative thinkers.
“The greatest scientists are artists as well,” as Albert Einstein saos.
“I think we take for granted that we rely heavily on science creativity, whether we realize it or not,” said Rex Jung, a professor of neurosurgery at the University of New Mexico in Albuquerque. Whether we use our advanced technology to watch cat videos or take advantage of life-saving medical procedures, scientific innovation is “incredibly important to our quality of life,” Jung said.
Society needs creative scientists for continued innovation. But does the process for teaching scientific creativity differ from artistic creativity? And can creativity be taught?
Scientists have a bad creative rap, Jung said, because their work is more tangible and “real.”
“Our work builds on previous work—you’re standing on the shoulders of giants,” he said. “We’re incrementally working to expand upon previous work, and that is deemed less creative, or somehow derivative. But I would argue that artists do the same thing.” Cubist artists built upon the foundation of impressionism, Jung noted, just as scientists innovate based on the work conducted before their own.*
In 1926, social psychologist Graham Wallas wrote a book called “The Art of Thought” in which he described the four stages of creativity: preparation, incubation, illumination, and verification. Jung, who has written a number of articles about the neuroscience of creativity, noted that the stage between incubation and illumination involves a pretty big cognitive handoff.
When an idea is incubating, Jung says, you rely heavily on the neural connections your brain uses for brainstorming—a system known as the default-mode network: “You use the regions of the brain involved in daydreaming and imagination. You’re looking inward instead of solving the problems of the world.” That allows ideas to bounce around and intersect in novel ways.
But the cognitive control network takes over once your brain wants to articulate and implement the idea. This is your brain’s error checker, where you plan and make decisions to overcome your habitual inclinations.
Jung is most interested in that tenuous transfer between the two systems, when an idea evolves from something abstract to something it can articulate and evaluate.
“We see that the most highly creative people flip easily between the two and are better able to modulate these networks,” Jung said.
Neurologically, the creative process should look the same regardless of whether a person is an artist or a scientist, Jung says. And researchers have just begun to see this creativity in real time.
Charles Limb, an ear, nose and throat surgeon at Johns Hopkins University in Baltimore, scanned musicians’ brains as they improvised melodies. Limb disimilar study with rap artists, asking them to improvise on the fly.
What researchers found was that the improvising brains turned off their error checkers and let the ideas bubble to the surface while they were in earlier stages. If they studied scientists, researchers would presumably see the same neurological activity, although they haven’t yet tested it.
But Jung and others who study creativity fear that it’s on the decline among students. Even though creativity is innate, it needs to be cultivated. And as schools place greater emphasis on learning material and taking tests, Jung fears that opportunities for thoughts to flow freely are fewer now than in the past.