NEW YORK — Mathematics. It's a subject that can elicit groans and exclamations of "boring."
But Glen Whitney, a former hedge-fund quantitative analyst, is betting he can change that with a formula that looks like this: math (equals) discovery (equals) beauty (equals) fun.
Whitney is planning to open the only museum in the United States dedicated to mathematics. MoMath, which will center on the wonders of mathematics and its connections with art, science and finance, is scheduled to open in New York City sometime in 2012, with the help of a $2 million grant from Google.
There are many great math teachers in the United States, but the subject's joy of discovery is lost to the "tyranny of the curriculum and the almost treadmill of standardized testing," Whitney said.
"That sensibility has sucked out the life of the subject," he said. "Math is evolving. It's an act of human endeavor. There's beauty" in its many patterns.
The museum will provide the element of surprise and excitement that textbooks cannot, added Cindy Lawrence, the museum's chief of operations who directs an extracurricular mathematics program for gifted students through a joint venture with Brookhaven National Laboratory.
The $30 million museum will occupy the ground floor and lower level of a 20-story building on East 26th Street in Chelsea; $22 million already has been raised.
The two executives have been testing the waters of creating a museum of mathematics for nearly two years with Math Midway, a traveling exhibit that has been shown in seven cities, and counting.
It will be at the World Science Festival street fair in New York on June 5, and at the Liberty Science Center in New Jersey from Oct. 7 to Jan. 22, 2012.
It is currently at the Museum of Nature & Science in Dallas, where school children recently scampered through the kind of carnival themed, brightly colored exhibits planned for MoMath.
Tents along one wall offered a variety of activities including a depiction of a ship on a moving circle that can only be "righted" by placing equal amounts of weight on each side; a rollercoaster track that kids can adjust to test out what angle gets the fastest time; and a harmonograph, which uses pendulums to draw a geometric image.
"It's just a very hands-on, exciting exhibit" that appeals to many ages, said Jason Treadway, an educator at the Dallas museum. "I think one of the great things about it is you're basically learning about math without knowing you're learning about math."
Another activity, "Pedal on the Petals," lets visitors ride square-wheeled tricycles on a track with a series of curves shaped like a huge sunflower.
A nearby sign that proclaims "There's a road for every wheel!" also asks "Do you dare to ride on a square?" The sign poses the question: "Why is the ride so smooth?"
The concept is based on a mathematical theorem that there's a way to contour a road surface so that wheels of that shape will roll smoothly.
"Visitors can see – and physically experience – how math makes the seemingly impossible not only possible, but fun," said Whitney.
"The kids actually get to explore math rather than be told about it," said Marea Kelly, who brought her fifth graders to the exhibition. "It's really going to help the kids who don't see the concepts right away."
She said it made perfect sense to her students as soon as they rode the tricycle.
These and about 50 other interactive activities at the new museum will also demonstrate math's collaborative process.
"Mathematicians very often work together," said Lawrence. "We're trying to build on that" with exhibits that encourage collaboration.
Math museums exist in many other countries, including Italy, Germany, Korea and France, but none in the United States, perhaps reflecting the low regard for the subject in this country.
Studies consistently show that Asian students outpace their counterparts in other countries in math achievement.
The most recent Trends in International Mathematics and Science Study found that 40 percent of fourth-graders in Singapore and Hong Kong, for example, reached the advanced benchmark in math, compared with only 11 percent in the United States. At the eighth-grade level, Chinese Taipei, Korea and Singapore had 40-45 percent of students reaching the benchmark and only 6 percent in the United States.
"Given that math is used in more and more fields," from climate study to finance to astronomy, "there's a public problem here that needs to be addressed," said Sylvain Cappell, a professor at the Courant Institute of Mathematical Sciences at New York University.
Cappell, who is on MoMath's advisory council, said a math museum is a different way to reach kids.
"It's not to denigrate what goes on in the classroom," he said. "It's to give teachers and students another tool."
Student math proficiency has gradually been improving in the United States over the past 15 years, said Zalman Usiskin, director of the Chicago School Mathematics Project at the University of Chicago. But he said a different ethos in Asia contributed to those students scoring high.
A vast majority of students in Korea, Singapore and Japan "go to school after school" where they focus on individual subjects, he said. In Korea, they are aptly called "cram schools."
"There's a different attitude toward how much time students should be expected to spend on studying," he said.
Conversely, U.S. education places more emphasis on well-roundedness.
The museum can make a difference, said Cappell.
"No one element is going to change around the whole national culture but I think this could make a difference in both enlarging kids' understanding of the world and in their life prospects," he said.
Associated Press writer Jamie Stengle in Dallas contributed to this report.