Lightweight "Dymaxion" Car.

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Lightweight "Dymaxion" Car

Photograph from Hedrich Blessing Collection, Chicago History Museum/Getty Images

A house, a map, a bathroom, and a car: Those are the widely varied applicationsthat inventor Buckminster Fuller found for his Dymaxion (dynamic maximum tension) concept. Shown here is Fuller's first Dymaxion Car, which could carry up to 11 passengers, travel up to 120 miles per hour (about 145 kilometers per hour), and average 28 miles per gallon of gasoline (a little less than 12 kilometers per liter). For comparison, the most efficient minivans in the 2012 model year are rated by the U.S. Environmental Protection Agency at only 24 miles per gallon (just over 10 kilometers per liter).

The three-wheeled Dymaxion Car, pictured here at the 1933 Chicago World's Fair, had a steel frame and an ash wood body covered with aluminum. Painted canvas formed the roof. A Dymaxion driver ended up being killed in a crash during a demonstration of the teardrop-shaped vehicle--the apparent result of arubber-necking driver pulling alongside and hitting the vehicle. The incident spooked potential investors, and the design never made it into large-scale production.

Still, shedding pounds has become a vital part of vehicle design in an era of automakers competing to build better, greener cars. "Light weight in vehicle design is extremely important for fuel economy and to make electric vehicles more viable," said Chris Gerdes, director of the Center for Automotive Research at Stanford University. In an email, he explained, "There is a concept known as 'mass decompounding,' meaning that as you make the car lighter, you can make the motor smaller which in turn allows you to carry fewer batteries, which reduces weight further."

(Related: "Light Is the Bright IDEA for Transport")

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Maglev Train

Photograph by Keren Su, Corbis

The idea of high-speed magnetically levitated trains has floated around since the early 1900s. The concept involves using magnetic fields to levitate a train above the rails, or guideways. No contact between wheels and rails means less friction, and, in theory, lower maintenance costs compared to conventional bullet trains.

The technology has seen real-world operation, notably in German and Japanese demonstration projects, and in 2004 Shanghai launched the first commercial maglev line after two years of trials. Connecting the Shanghai airport to downtown, the Shanghai Maglev Train (pictured here) travels up to a blazing-fast 431 kilometers per hour, or about 268 miles per hour.

But the up-front costs are steep. In 2008, Germany ditched plans for a 40-kilometer (24.9 mile) maglev project in Munich after cost estimates ballooned to more than 3 billion euros, from a previous estimate of 1.85 billion euros. But maglev isn't over and out yet. This spring, Japanese officials gave the go-aheadfor construction of a 9-trillion-yen ($111.4 billion), 320-mile (515-kilometer) maglev line between Tokyo and Osaka, much of it underground. If all goes according to plan-and maglev projects rarely do-the two cities will be connected by a 40-minute train ride by 2045.

(Related: "On China's Roads and Rails, a Move to Smarter Transport")

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SkySails Towing Kite

Photograph courtesy SkySails

"Let's go fly a kite, up to the highest height," the characters of Mary Poppins sing in Walt Disney's 1964 film. For SkySails, a company headquartered in Hamburg, Germany, high-flying, huge kites are the basis of a business aiming to transform the shipping industry.

Already, SkySails has attracted about 50 million euros ($67.6 million) in investment for its automated towing kite systems, which include onboard launch, recovery, and steering systems, plus a rope, control pod, and towing kite that swoops in figure-eights hundreds of meters in the air in front of the ship to generate propulsion power.

Fewer than 10 ships have been outfitted with the technology to date. Yet using wind propulsion to eliminate even a portion of cargo ships' fossil fuel needs could be an important step for an industry responsible for some 3.3 percent of global carbon dioxide emissions in 2007. And the International Maritime Organization estimates emissions from international shipping, which made up 2.7 percent of global human-caused CO2 emissions in 2007, could double or triple by 2050.

Published November 23, 2011