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Saturday, April 23, 2011

An Electric Trike In The Trunk Makes For The Ultimate Hybrid Eco-Car

FASTCOMPANY - Fri Apr 22, 2011

Chinese car firm Geely has a gift for you in the trunk of its electric McCar vehicle: A tiny electric trike that's actually charged as you drive the bigger car. It could be the perfect vehicle to solve city traffic problems.

Geely's a bit of a surprising company in many ways: It bought Volvo cars from Ford in August 2010, it's one of China's top 10 car makers as well as being one of the few that's not state-owned, and it's history only stretches back to 1986 when it began trading as a refrigerator manufacturer. So perhaps the innovative design of its McCar vehicle shouldn't be such a surprise. Inside the trunk of the ultra compact Smart car-style four-seater is a tiny three-wheeled electric scooter.

The trike actually charges while it's docked into the car. It can run 18 miles, and has a top speed of 18 miles an hour and although you think it may gulp down valuable trunk space in such a tiny vehicle, it actually folds into its storage compartment to leave a luggage area that even Smart owners would admire.

The McCar itself is of a format that's increasingly popular, and offers little in the way of novelty apart from its eco-engine systems: It comes in just two varieties, with a hybrid gasoline-electric engine that can run about 31 miles on solely electric power from its 8kWh battery and 373 miles at up to 80 miles per hour in combined gas-electric mode. The all-electric edition has a 12 kWh battery for a longer 93 mile range, but tops out at just 52 miles per hour, meaning it's more ideal for city commuting versus racing up the freeway on a vacation getaway.

Though the trike is obviously just for one rider, it's easy to imagine the vehicle combo of trike and McCar as being the ideal commuter vehicle in today's clogged cities (probably more so in Europe, where smaller cars are de-rigeur and the trike wouldn't risk being crushed beneath the wheels of an American-sized SUV). Since it doesn't look like congestion pricing is coming to a major American metropolis any time soon, the McCar scooter could be the solution to urban traffic problems, especially for longer-distance commuters who insist on driving into the city. It's most ideal use-case would be to drive from a rural or suburban home under all-electric power, parking in a freely-available space on the edge of a city, and have the driver weaving his way through more traditional traffic to an inner-city office on the trike where the scooter wouldn't eat up too much parking space in the office garage. Then we'll just have to be concerned about the scooter jams, but that's a problem for a different day.

Thursday, April 21, 2011

Design challenge: create a new tsunami warning marker that communicates more effectively


ANEYOSHI JOURNAL

Tsunami Warnings, 

Written in Stone



A stone tablet in Aneyoshi, Japan, warns residents
not to build homes below it. Hundreds of these
so-called tsunami stones, some more than
six centuries old, dot the coast of Japan.

click here to see a video

In many cases, people ignored the warnings from the past and lost their homes or their lives. How would you design a new warning that future generations will take more seriously?

Wednesday, April 20, 2011

The water planet Kamino from Star Wars Episode 2: Attack of the Clones

some images of a planet that is all water, and where it is always raining!





What Today's Sinking Cities Tell Us About The Future Of Rising Seas

FASTCOMPANY Mon April 18, 2011

I know not many people check the blog anymore (which makes it pointless to write this!) but I think this is a relevant article for a few people in the class...

We've already seen Manhattan swallowed by surging waves as glaciers collapse and drive sea levels sky-high--on video screens and in nightmarish daydreams about human-driven climate change. But what will sea level rise really be like for a coastal metropolis of the future? It's actually easy to answer that question yourself, not with a ride in a time machine but simply with a trip in a car, boat, or plane. Visit any of more than a dozen coastal cities around the world and you'll soon get a first-hand taste of what's coming. But be forewarned; it's probably not as thrilling as what you've seen on TV.

We often hear about how high the sea could rise as ice sheets thaw and crumble. If we switch quickly to non-fossil fuels, the sea level should rise about as much as it did during the naturally warm period before the last ice age, roughly 20 feet or so. If we burn all of our remaining coal, then all land-based ice will vanish and the sea level will stand over 200 feet higher than today.

We rarely hear about the slow pace of such changes while gaping at disaster flicks, or at the so-called "flood maps" that show America with the thumb of Florida bitten off as if by sharks. If the thought of catastrophic climate change finally makes you so depressed that you chuck everything and simply wait on your favorite beach for the Great Flood, you'll certainly perish there. But not from drowning; you'll die of old age long before the ocean overtakes the trees or buildings around you.

Sea level is currently rising by about three fingernail thicknesses per year, and it climbed about seven inches during the entire 20th century. Nobody knows exactly how much it could speed up during this century; the high end of the prediction spectrum suggests another 15 feet or so by 2100 AD. But most of the estimates coming from experts who study this topic for a living put the range closer to two or three feet by century's end. That averages out to about two or three inches per year.

In other words, if you're going to sit on the beach and wait for the 10-foot-high roof of the hot dog stand behind you to disappear, you're going to have to wait between 300 and 1,000 years, so you'd better bring plenty of cash to pay for all of those hot dogs you'll be eating in the meantime.

Now, don't get me wrong. Sea level rise is a horrible outcome of human-driven warming. But not in the way you may be thinking of it. It's not so much a crashing apocalypse as it is a chronic problem, more like a slow cancer than a sudden heart attack. We still need to do all we can in order to prevent as much of it as possible, but we also need to realize that it's going to take a long time. This is not to remove all concern about the issue, but rather to help us recognize that the slow pace of these changes can mask their seriousness. And it also means that this is going to bother us and our descendants for a very long time--probably for thousands of years.

So what's it really going to be like to live in a coastal city from here on out? You might ask residents of the American Gulf Coast, much of which has been sinking faster than the ocean rose during the last century, thanks to groundwater extraction and removal of oil and gas. Some sites around Houston, for example, have recently started sinking by more than an inch per year, though you wouldn't know it from the scarcity of media coverage about that long-term "slow-pocalypse" (PDF).

Or consider Tokyo, which sank about 10 feet during the last century. Some sites near the harbor are subsiding by more than four inches per year. China's largest coastal city, Shanghai, sank about 9 feet deeper into the Yangtze delta over the last hundred years. And Bangkok is sagging by four or five inches per year, which is over twice as fast as the inundation in a worst-case future and forty times the rate of today's sea level rise. In these and a surprisingly large number of similar places, the sinking of the ground has much the same effect as a rising of the sea surface, and the magnitude is often greater than what we worry about from climate change. It's been costing some cities billions of dollars in dikes, pumps, and repairs for many decades already. It has become such a chronic problem in Texas that the state legislature has officially designated a "Coastal Subsidence District" around Galveston.

Clearly, this is a severe drain on resources that most towns would surely prefer to do without. Unless, perhaps, you raise the topic with residents of Venice. The soft sediments beneath the city are dropping twice as rapidly as the sea is rising, and the streets have been flooded for centuries. But urban life in Venice is not paralyzed by this, and tourists don't flock there in order to gawk at the devastation of a city gone under. By now, Venetians are used to it and I suspect that, given a choice, most of them would keep things much as they are. Of course, that might change when even faster sea level rise kicks in and piles on top of their existing problems.

Or consider Amsterdam. Roughly two thousand years ago it was a nondescript bit of rural landscape isolated from the ocean by miles of low-lying coastal plains. When naturally rising sea levels eventually formed what is now the Zuiderzee harbor, they also opened a route to the shipping lanes of the North Atlantic and Amsterdam was transformed into a bustling hub of commerce and culture. Even as we lose today's Big Easies and Shanghais, tomorrow's nascent Amsterdams will spring to life in the "zone of anticipation" that precedes the waves. Centuries later, they too will succumb to submergence, and so on it will go.

This is not a future that most nations would choose, nor should they have to. Fortunately, we still have time to keep most of today's seaside settlements above water, albeit not without somewhat of a dunking in the lowest areas--if we switch to carbon-free fuels as soon as possible. Our distant descendants, if they think of us at all, might thank us as they twirl their pasta in the canal-side cafes of an even-more-ancient Venice or only-partially-waterlogged Manhattan in 5000 AD.

Tuesday, April 5, 2011

Google's Driverless Car!




TED Talks - March 20011


Sebastian Thrun helped build Google's amazing driverless car, powered by a very personal quest to save lives and reduce traffic accidents. Jawdropping video shows the DARPA Challenge-winning car motoring through busy city traffic with no one behind the wheel, and dramatic test drive footage from TED2011 demonstrates how fast the thing can really go.

See the film (ITS ONLY 4 Mins!!) here