Science and Engineering Lectures Online

VideoLectures.Net offers free and open access of a high quality video lectures presented by distinguished scholars and scientists at events like conferences, summer schools, workshops and science promotional events. The portal is aimed at promoting science, exchanging ideas and fostering knowledge sharing by providing high quality didactic contents not only to a scientific community but also to a general public.

Enjoy the great lectures they provide. Also see the Curious Cat directory of science and engineering webcast web sites. There are lots of great presentations available now. The last several years has really seen a huge increase in the valuable webcasts available online.

Low-Cost Multi-touch Whiteboard Using Wii Remote

Using infrared (IR) light pens and the Wii Remote, it is possible to create very low-cost multi-point interactive whiteboards and multi-point tablet displays. Johnny Chung Lee, Carnegie Mellon University. Download the software. Great stuff, it is wonderful to see what people can create with technology.

The Only Known Cancerless Animal

Unlike any other mammal, naked mole rate communities consist of queens and workers more reminiscent of bees than rodents. Naked mole rats can live up to 30 years, which is exceptionally long for a small rodent. Despite large numbers of naked mole-rats under observation, there has never been a single recorded case of a mole rat contracting cancer, says Gorbunova. Adding to their mystery is the fact that mole rats appear to age very little until the very end of their lives.

The mole rat’s cells express p16, a gene that makes the cells “claustrophobic,” stopping the cells’ proliferation when too many of them crowd together, cutting off runaway growth before it can start. The effect of p16 is so pronounced that when researchers mutated the cells to induce a tumor, the cells’ growth barely changed, whereas regular mouse cells became fully cancerous.

“It’s very early to speculate about the implications, but if the effect of p16 can be simulated in humans we might have a way to halt cancer before it starts.” says Vera Gorbunova, associate professor of biology at the University of Rochester and lead investigator on the discovery.

In 2006, Gorbunova discovered that telomerase—an enzyme that can lengthen the lives of cells, but can also increase the rate of cancer—is highly active in small rodents, but not in large ones.

Until Gorbunova and Seluanov’s research, the prevailing wisdom had assumed that an animal that lived as long as we humans do needed to suppress telomerase activity to guard against cancer. Telomerase helps cells reproduce, and cancer is essentially runaway cellular reproduction, so an animal living for 70 years has a lot of chances for its cells to mutate into cancer, says Gorbunova. A mouse’s life expectancy is shortened by other factors in nature, such as predation, so it was thought the mouse could afford the slim cancer risk to benefit from telomerase’s ability to speed healing.

While the findings were a surprise, they revealed another question: What about small animals like the common grey squirrel that live for 24 years or more? With telomerase fully active over such a long period, why isn’t cancer rampant in these creatures?

Researching Direct Brain Interfaces for Text Entry

Adam Wilson posted a status update on the social networking Web site Twitter — just by thinking about it. A UW-Madison biomedical engineering doctoral student, Wilson is among a growing group of researchers worldwide who aim to perfect a communication system for users whose bodies do not work, but whose brains function normally. Among those are people who have amyotrophic lateral sclerosis (ALS), brain-stem stroke or high spinal cord injury.

The interface consists, essentially, of a keyboard displayed on a computer screen. “The way this works is that all the letters come up, and each one of them flashes individually,” says Williams. “And what your brain does is, if you’re looking at the ‘R’ on the screen and all the other letters are flashing, nothing happens. But when the ‘R’ flashes, your brain says, ‘Hey, wait a minute. Something’s different about what I was just paying attention to.’ And you see a momentary change in brain activity.”

The system still is not very quick. However, as with texting, users improve as they practice using the interface. “I’ve seen people do up to eight characters per minute,” says Wilson.

Read full press release

Honda U3-X Personal Transport

Honda and Toyota continue to develop personal transport and personal robotics assistance products. While other car companies can barely stay in business Honda and Toyota not only are doing well (even if Toyota will lose money this year) they are investing in the future and pushing strong engineering programs. I must say the personal transportation devices seem less than awesome to me though this video does make the Honda U3-X seem reasonable – better than the Toyota Winglet looked.

Honda unveiled U3-X, a compact experimental device that fits comfortably between the rider’s legs, to provide free movement in all directions – forward, backward, side-to-side, and diagonally. Honda will continue research and development of the device including experiments in a real-world environment to verify the practicality of the device.

This new personal mobility device makes it possible to adjust speed and move, turn and stop in all directions when the rider leans the upper body to shift body weight. This was achieved through application of advanced technologies including Honda’s balance control technology, which was developed through the robotics research of ASIMO, Honda’s bipedal humanoid robot, and the world’s first omni-directional driving wheel system (Honda Omni Traction Drive System, or HOT Drive System), which enables movement in all directions, including not only forward and backward, but also directly to the right and left and diagonally. In addition, this compact size and one-wheel-drive personal mobility device was designed to be friendly to the user and people around it by making it easier for the rider to reach the ground from the footrest and placing the rider on roughly the same eye level as other people or pedestrians.

Volkswagen Fun Theory: Piano Staircase

Volkswagen built this piano stairway in Stockholm, Sweden as part of their fun theory project, which aims to change people’s behavior for the better through fun. That is a great strategy.

Engineered Circuits That can Count Cellular Events

Engineered circuits can count cellular events by Anne Trafton

MIT and Boston University engineers have designed cells that can count and “remember” cellular events, using simple circuits in which a series of genes are activated in a specific order.
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The first counter, dubbed the RTC (Riboregulated Transcriptional Cascade) Counter, consists of a series of genes, each of which produces a protein that activates the next gene in the sequence.

With the first stimulus — for example, an influx of sugar into the cell — the cell produces the first protein in the sequence, an RNA polymerase (an enzyme that controls transcription of another gene). During the second influx, the first RNA polymerase initiates production of the second protein, a different RNA polymerase.

The number of steps in the sequence is, in theory, limited only by the number of distinct bacterial RNA polymerases. “Our goal is to use a library of these genes to create larger and larger cascades,” said Lu.

The counter’s timescale is minutes or hours, making it suitable for keeping track of cell divisions. Such a counter would be potentially useful in studies of aging.

The RTC Counter can be “reset” to start counting the same series over again, but it has no way to “remember” what it has counted. The team’s second counter, called the DIC (DNA Invertase Cascade) Counter, can encode digital memory, storing a series of “bits” of information.

The process relies on an enzyme known as invertase, which chops out a specific section of double-stranded DNA, flips it over and re-inserts it, altering the sequence in a predictable way.

The DIC Counter consists of a series of DNA sequences. Each sequence includes a gene for a different invertase enzyme. When the first activation occurs, the first invertase gene is transcribed and assembled. It then binds the DNA and flips it over, ending its own transcription and setting up the gene for the second invertase to be transcribed next.

When the second stimulus is received, the cycle repeats: The second invertase is produced, then flips the DNA, setting up the third invertase gene for transcription. The output of the system can be determined when an output gene, such as the gene for green fluorescent protein, is inserted into the cascade and is produced after a certain number of inputs or by sequencing the cell’s DNA.

This circuit could in theory go up to 100 steps (the number of different invertases that have been identified). Because it tracks a specific sequence of stimuli, such a counter could be useful for studying the unfolding of events that occur during embryonic development, said Lu.

Other potential applications include programming cells to act as environmental sensors for pollutants such as arsenic. Engineers would also be able to specify the length of time an input needs to be present to be counted, and the length of time that can fall between two inputs so they are counted as two events instead of one.

Car Style Mass Transit Mag Lev System

Skytran is a very cool sounding transportation option. It promises, individual transportation modules traveling at 100 miles per hour within the city nonstop to many more points than light rail can service. The current non-solutions we have been attempting for decades of building more and more roads is not working.

The costs is estimated at much cheaper than other alternatives. It would be great if something like this could actually make it (it is much easier to dream about possibilities than to bring them into the world).

From the SkyTran web site:

It works like a taxi that picks you up and drives you to your destination. You travel only with people you choose to, in personal-sized vehicles. The electric vehicles are automatically driven at a constant speed on the main guideway. Like on a freeway, you travel non-stop until taking an exit-ramp at your destination. Also like a freeway, instead of intersections PRT has over-passes so you truly never have to stop… vehicles are lined up waiting for you at boarding stations, and after you get out, they either line up to wait for another rider, or go park themselves and wait for peak periods when they’ll be needed.

At 60 mph the electricity for SkyTran would cost less than 1 cent per mile (at current electricity costs of 11 cents per kWhr). By comparison, buying gas for a 30-MPG car at $2/gallon costs more than 7 times as much.

The site estimates the cost at$10 million per mile for one-way track and $15 million per mile for two-way track. Fundamentally, SkyTran track can be cheaply built because all of the components are very light-weight. Weight is why roads and trains cost so much… In comparison, SkyTran’s guideway only needs to support one 1000 pound (loaded) vehicle at a time… See the detailed cost evaluation page.
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Friday Fun: Longest Basketball Shot

Amazing basketball shot from Texas. Popular Science looked at the physics involved:

The horizontal distance to the basket from the launch point is approximately 50 meters, and the launch angle Î¸ is about 20 degrees.
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Looking at the horizontal part of the motion and accounting for the launch angle we can then determine the initial speed (v0) of the basketball necessary to cover the horizontal distance in 3.8 seconds. We get

Î”x = vhorizontal t = v0cosÎ¸t

and therefore v0 = Î”x/cosÎ¸t = 50 m /[cos 20 (3.8 s)] = 14 m/s

Now if we look at the vertical part of the motion we can determine how far the ball would drop in 3.8 seconds. We’ll then compare our theoretical result to the actual vertical distance from the third deck down to the basket that we observe in the video. (We estimate that drop to be similar to the horizontal distance of about 50 meters.) Therefore, based on the time of flight and the initial velocity that we determined above we calculate a vertical drop of

Î”y = v0vertical t + Â½ at2 = v0 sin t — Â½ gt2 = 14m/s(sin 20)(3.8 s) — Â½ (-9.8m/s2 )(3.8)2 = -53 m

Well, this corresponds pretty well to what we see in the video. Even accounting for the effects of air resistance (which we did not address above to keep things simple) the result isn’t altered drastically. The motion recorded in the video (in what appears to be a continuous frame) certainly appears possible according to the laws of physics.

See more videos of circus basketball shots by Dude Perfect.

Undergraduate Student Discovers Herbivorous Spider

Herbivory Discovered in a Spider

A jumping spider from Central America eats mostly plants, according to new research. Spiders were thought to be strictly predators on animals. The spider, Bagheera kiplingi, was described scientifically in the late 1800s, but its vegetarian tendencies were not observed until the 21st century.

“This is the first spider in the world known to deliberately hunt plant parts. It is also the first found to go after plants as a primary food source,” said lead author Christopher Meehan.
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Of the approximately 40,000 species of spiders known, Bagheera kiplingi is the only species known to be primarily herbivorous. Ironically, the vegetarian spider is named after the panther in Rudyard Kipling’s “The Jungle Book.” The spider inhabits several species of acacia shrubs involved in a well-known mutualism between the acacias and several species of ants.
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Previously, very few spiders had been seen consuming plants at all. Some spiders had been observed occasionally eating nectar and pollen, although the bulk of their diet was insects and other small animals.