Category Archives: Students

Items for students and others, interested in learning about science and engineering and the application of science in our lives. We post many of the general interest items here.

Albert Einstein, Marilyn Monroe Hybrid Image

This image looks like Albert Einstein up close. If you back up maybe 3-5 meters it will look like Marilyn Monroe. Image by Dr. Aude Oliva.

Hybrid images paper by Aude Oliva, MIT; Antonio Torralba, MIT; and Philippe G. Schyns University of Glasgow.

We present hybrid images, a technique that produces static images with two interpretations, which change as a function of viewing distance. Hybrid images are based on the multiscale processing of images by the human visual system and are motivated by masking studies in visual perception. These images can be used to create
compelling displays in which the image appears to change as the viewing distance changes. We show that by taking into account perceptual grouping mechanisms it is possible to build compelling hybrid images with stable percepts at each distance.
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Hybrid images, however, contain two coherent global image interpretations, one of which is of the low spatial frequencies, the other of high spatial frequencies.
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For a given distance of viewing, or a given temporal frequency a particular band of spatial frequency dominates visual processing. Visual analysis of the hybrid image still unfolds from global to local perception, but within the selected frequency band, for a given viewing distance, the observer will perceive the global structure of the hybrid first, and take an additional hundred milliseconds to organize the local information into a coherent percept (organization of blobs if the image is viewed at a far distance, or organization of edges for close viewing).

Very cool stuff.

This is just a smaller image of the above (all I did was shrink the size). For me, this already looks like Marilyn Monroe, but also needs a shorter distance to see the image seem to change.

Friday Fun: Dolphins Play with Air Bubble Rings

Bubbles in water

The bubble is the most stable situation for an amount of gas phase in water (liquid phase). A surface tension is associated with the surface between the gas phase and the liquid phase, the surface tension tends to minimize the surface area. This is also described in the section on bubbles in bubble models. Given a volume of gas, the sphere (bubble) shape is the shape that has the smallest surface area with respect to the containing volume.

The situation of a bubble in water is comparable to a balloon. The balloon surface is elastic. The tension of it tries to minimize the surface: if you don’t tie a knot in the balloon after blowing it up, air escapes and the surface of the balloon is minimized to the initial unstretched situation.
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Bubbles do not turn into rings naturally. Something has to be done for that. However, they have long lives and often make it up to the surface. Hence they are stable structures.
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Dolphins create bubble rings by blowing air in a water vortex ring: by flipping a fin they create a vortex ring of water. The then blow air in the ring, which goes to the center of the vortex ring. In the water vortex ring the natural location of the air is in the center of the vortex. When air and water move in a circular path like they do in the vortex ring, air and water are separated due to the centripetal force. Since density of water is larger than air, water moves at the outside, while the air ends up in the middle.

Follow the link for much more on the physics of bubble rings.

Rutgers Initiative to Help Disadvantaged Children

Praise for ambitious Rutgers initiative to help disadvantaged youths

It’s been a year since Rutgers University launched one of the country’s most ambitious education experiments, a campaign to change the fortunes of urban teenagers
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Adolescents, their parents and public school administrators uniformly praise the Future Scholars Program. Last June, the initiative started 200 disadvantaged seventh-graders along a five-year path of summer workshops, tutoring, social support and cultural outings. Their reward if they keep a B average and meet other requirements: a full ride to Rutgers.

The Rutgers Future Scholars Program is not targeting science, it focuses on all academic areas.

The goal of the Rutgers Future Scholars program is to increase the numbers of academically ambitious high school graduates who come from low-income backgrounds, help them meet the standards to be admitted to colleges and universities, and then provide tuition funding to those who are admitted and choose to attend Rutgers University.

By improving educational opportunities, in general, more disadvantaged children will have the opportunity to become scientists and engineers. They are highlighting what recent high school graduates from the Camden school are doing, such as Aspiring Physician, Stem Cell Researcher, Rutgers-Camden Student

Most students don’t conduct stem-cell research and sit on a national board with a $3 million budget. Tej Nuthulaganti isn’t like most students.

After earning his undergraduate degree in biology from Rutgers-Camden in 2007, Tej is on track to earn his graduate degree in biology this May, thanks to the five-year combined bachelor and master degree program in biology at Rutgers-Camden.
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For the past two years the 2003 graduate of Highland High School has been working with Daniel Shain, an associate professor of biology at Rutgers-Camden and one of the nation’s leading experts on leech research. Nuthulaganti has furthered Shain’s research on identifying key genes that are pivotal in the stem cell formation in the leech, which gives a simple model system for more complicated research. Their research could be beneficial in the early detection of cancerous cells.

In addition to presenting his research at major conferences, including one at the University of California-Berkeley, Nuthulaganti has also made sure that his fellow students who are considering careers in medicine also have a forum to ask questions and think deeply about what kinds of doctors they’d like to be.

There are many great programs underway that are aimed at improving education performance. And this seems like another good effort.

Agricultural Irrigation with Salt Water

Irrigation system can grow crops with salt water

A British company has created an irrigation system that can grow crops using salt water. The dRHS (Dutyion Root Hydration System) irrigation system consists of a network of sub-surface pipes, which can be filled with almost any water, whether pure, brackish, salted or polluted. The system can even take most industrial waste-water and use it without the need for a purification process.

The pipes are made from a plastic that retains virtually all contaminants while letting clean water through to the plants’ roots.
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The dRHS system, which has been in development for ten years, was initially trialled in the UK using tomato plants, and has since been tried out in the US. The next trials will take place in Chile, Libya, Tanzania, Mauritius and Spain. Tonkin says 20,000 metres of pipe are on their way to the Middle East, where it will be tested with water that’s more saline than sea water.
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It has also won international recognition for its work, most recently at the international Water Technology Idol event in Switzerland, organised by Global Water Intelligence magazine and the International Desalination Association.

Christopher Gasson from Global Water Intelligence magazine says that the competition was a three-way tie last year but this year, the winner stood out. “The dRHS irrigation system addressed a bigger problem than the other technology that it was competing against,” he said. “Agriculture water is where 70 per cent of water goes. By 2025 two thirds of the world’s population will experience water shortages and so farming will be badly hit.

This is good news. I am still skeptical that this is as good as the article makes it sound. Just as simple as “flushing out the pipes.” But I am hopeful we will find desalination-type solutions. Clean water is a huge problem facing the world now, basically I just figure with enough engineers focused on finding workable solutions we will find several that have a huge impact. If not, we are in real trouble.

Extremophile Hunter

NSF has begun publishing a new web magazine: Science Nation. The inaugural article is Extremophile Hunter

Astrobiologist Richard Hoover really goes to extremes to find living things that thrive where life would seem to be impossible–from the glaciers of the Alaskan Arctic to the ice sheets of Antarctica.
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“It may be that when we ultimately get a chance to bring back samples of ice from the polar caps of Mars, we might find biology that looks just like Earth life and it might be that it originated on Earth and was carried to Mars,” said Hoover. “Of course, if it can happen that way, it could have happened the other way. So we may never know the ultimate answer to how did life originate.”
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Some of the structures he has imaged from these meteorites are intriguing, bearing striking similarities to bacteria here on Earth. Could these be the fossilized remains of extraterrestial life?

“I am convinced that what I am finding in the carbonaceous meteorites are in many cases biological in nature, and I think they are indigenous and not terrestrial contaminants,” said Hoover.

It is a highly controversial interpretation. “We have for a long time thought that all life, as we know it, originated on Earth. And there isn’t any life anywhere else,” he said. “That’s an idea, it’s a hypothesis, it’s a totally unproven hypothesis.”

EngineerGirl Essay: The Cure to Vitamin D Deficiency

Kate Yuhas, an eighth-grader at Brighton’s Scranton Middle School, Michigan. Photo courtesy Kate Yuhas.

Brighton eighth-grader rewarded for her love for science

Thirteen-year-old Kate Yuhas, who plans to be an environmental engineer someday, has loved science since she was little.
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Yuhas received an honorable mention certificate from the National Academy of Engineering’s EngineerGirl! Web site Imagine That! Engineering Innovation Essay Contest for her essay on a tanning booth that helps people produce vitamin D. “My whole life I’ve been interested in science,” Yuhas said. “I really like helping the environment and eating organic.”

“Kate has a talent for science and math, and she’s won medals at Science Olympiad,” said her mom, Johanna, who coaches the team. “Kate has always had science-themed parties. My husband and I are both engineers, and we talk a lot about science at home.”

The essay contest asked participants to consider one of three images on the EngineerGirl! site and to discuss its potential purposes and functions using engineering creativity.
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Read Kate’s essay: The Cure to Vitamin D Deficiency

What can help prevent MS, high blood pressure, and several autoimmune diseases? The answer to that question would be Vitamin D, which you can get in three ways: food, supplements, and the sun. 70 percent of Americans lack adequate amounts of Vitamin D. The reason is that people just don’t get enough sun. That’s why my invention would be so helpful. It is a special tanning booth that only gives out the specific amount of UVB rays, the type of UV rays that is needed to produce Vitamin D, which you need.
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The Engineer Girl website has done a smart thing and posted all the essays online. It is a simple act but one so often other organizations fail to do in similar circumstances.

Google Wave Developer Preview Webcast

Google Wave is a new tool for communication and collaboration on the web, coming later this year. The presentation was given at Google I/O 2009. The demo shows what is possible in a HTML 5 browser. They are developing this as an open access project. The creative team is lead by the creators for Google Maps (brothers Lars and Jens Rasmussen) and product manager Stephanie Hannon.

A wave is equal parts conversation and document. People can communicate and work together with richly formatted text, photos, videos, maps, and more.

A wave is shared. Any participant can reply anywhere in the message, edit the content and add participants at any point in the process. Then playback lets anyone rewind the wave to see who said what and when.

A wave is live. With live transmission as you type, participants on a wave can have faster conversations, see edits and interact with extensions in real-time.

Very cool stuff. The super easy blog interaction is great. And the user experience with notification and collaborative editing seems excellent. The playback feature to view changes seems good though that is still an area I worry about on heavily collaborative work. Hopefully they let you see like all change x person made, search changes…

They also have a very cool context sensitive spell checker that can highlight mis-spelled words that are another dictionary word but not right in the context used (about 44:30 in the webcast).

For software developer readers they also highly recommended the Google Web Development Kit, which they used heavily on this project.

Went Walkabout. Brought back Google Wave.
Continue reading →

The First Web Server

photo of the first web server

Photo by sbisson from Geneva, Switzerland, November 2006 .

In a glass case at CERN is an unpreposessing little NeXT cube. It’s hard to believe that this little workstation changed the world, but it did. It’s Tim Berners Lee‘s original web server, the world’s first.

NeXT is the computer company Steve Jobs founded after he left Apple. Then he left NeXT to buy out Pixar. And then, of course, went back to Apple.

Teen Tackles Centuries-old Numbers challenge

teen tackles centuries-old numbers challenge

A 16-year-old Iraqi immigrant in central Sweden has single-handedly figured out a formula with Bernoulli numbers that is normally reserved for much more seasoned mathematicians, earning him praise from professors at prestigious Uppsala University.
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While it’s not the first time that someone has shown such Bernoulli number relationships, it’s highly unusual for a first year high school student to make his way through the complicated calculations, according to Uppsala University senior maths lecturer Lars-Ã…ke Lindahl. “He’s a very clever guy,” Lindahl told The Local.

“What he did isn’t necessarily new, but it is quite remarkable for a first year high school student to take on these types of problems all on his own. It’s certainly an achievement.”
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Altoumaimi plans to continue studying advanced math and physics over the summer. “I wanted to be a researcher in physics or mathematics; I really like those subjects. But I have to get better at English and social science,” he told Falu-Kuriren.

Great Lake Sinkholes

Grand Valley State University Scientist Discovers Great Lake ‘sinkholes’

Biddanda said the sinkholes are home to “bizarre” ecosystems dominated by brilliant purple mats of cyanobacteria, or blue-green algae, but largely devoid of fish.

“Groundwater from beneath Lake Huron is dissolving minerals from the defunct seabed and carrying them into the lake to form these exotic, extreme environments,” Biddanda said. “Those ecosystems are in a class not only with Antarctic lakes, but also with deep-sea, hydrothermal vents and cold seeps.”
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The Lake Huron sinkholes are dominated by brilliant purple mats of cyanobacteria — cousins of microbes found on the bottom of permanently ice-covered lakes in Antarctica — and pallid, floating pony-tails of other microbial life