Plus Blog

October 22, 2009
Friday, October 23, 2009

Maths student poster competition just launched!

If you're a maths student and feel like enthusing the next generation with your favourite bit of maths, then why not take part in the Further Mathematics Support Programme (FMSP) and Rolls–Royce plc third national poster competition.

Undergraduate or PGCE mathematics students are invited to design a poster, individually or as a group, which conveys the essence of a mathematical topic that has been covered at university by the designer(s). The poster should be targeted at school and college students studying AS or A level mathematics. Two winners will be chosen and receive £100 each, and their designs will be printed and sent out to over 2000 schools and colleges. The closing date is the 31st of March 2010. See the FMSP website for previous winners.

If this sounds interesting, then here are the rules. The poster should be mathematically accurate, attractively laid out, capable of enriching a course in AS or A level mathematics, and likely to attract school/college students to take mathematics (or mathematics-related subjects) at university. You can design your poster in any readily available software. Ideally, the page layout should be set to 59.4cm × 42.0cm, using either landscape or portrait format. The university's logo should appear in the top left corner and there should be a space 7cm high x 5cm wide in the top right corner for the FMSP logo. The bottom 2cm of the poster should be left blank. All images should be at least 300dpi.

Entries, as well as any questions about the competition, should be emailed to Richard Browne at RichardBrowne@furthermaths.org.uk. The email must include the name(s) and full contact details of the designer(s). The poster design should be attached to the e-mail, in the form of an editable file. The FMSP reserves the right to edit the winning designs before printing.

Happy designing!

posted by Plus @ 9:45 AM

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October 21, 2009
Thursday, October 22, 2009

Michael Green replaces Stephen Hawking in Lucasian chair

Congratulations to Michael Green who has been elected the 18th holder of the Lucasian Professorship of Mathematics at the University of Cambridge, one of the most prestigious academic positions in the mathematical sciences.

Isaac Newton was the second person to hold it in the 17th century, and he has been succeeded by mathematical giants including Charles Babbage, father of computer science, the theoretical physicist Paul Dirac, and of course Stephen Hawking, who has been holding the chair since 1979. Hawking stepped down from the professorship in the year of his 67th birthday, as university statutes require.

Michael Green is one of the founders of string theory, which he pioneered from the early seventies onwards. Apart from original research in the area, his contributions include the a textbook co-authored with Edward Witten and John Schwarz, which for many years remained the only string theory text book around.

Peter Haynes, Head of the Department of Applied Mathematics and Theoretical Physics at Cambridge, said: "Michael Green has played a leading role in theoretical physics research in the department since 1993. He is internationally known as a pioneer in string theory which over the last 20 years has become one of the most important and active areas of the field. In the department he continues to make important advances in this topic and at the same time to support and inspire young researchers. His appointment as Lucasian Professor continues the very distinguished tradition of that post."

You can read more in the Plus articles:

posted by Plus @ 4:03 PM

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October 21, 2009
Thursday, October 22, 2009

The idea that economics is all about the markets has been challenged by this year's award of the Nobel Prize in Economics. One half of the prize has gone to the political scientist Elinor Ostrom for showing that natural resources, like fish stocks or woodlands, can be commonly owned and still managed successfully. The other half of the prize has been awarded to the economist Oliver E. Williamson for demonstrating that the internal structures of firms and companies can be better at resolving conflicts than the open market. The award of the prize shows that economic theory can shed light not just on hard business transactions, but also on other forms of social organisation.

Read more!

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posted by Plus @ 1:26 PM

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October 15, 2009
Friday, October 16, 2009

Ice-free Arctic within 20 years

A leading polar researcher has warned that the Arctic may be ice-free during the summer in 20 years' time, with most of the thinning of the ice taking place over the next 10 years. Professor Peter Wadhams of the Polar Ocean Physics Group at the University of Cambridge was speaking at a meeting which announced the results of the Catlin Arctic Survey, an expedition to the Arctic which took place earlier this year with the aim of measuring ice thickness. The polar explorers, led by Pen Hadow, found that ice floes were on average only 1.8m thick. Once the ridges between ice floes are included, the average thickness rises to 4.8m, but the results are still worrying.

"The Catlin Arctic Survey data supports the new consensus view - based on seasonal variation of ice extent and thickness, changes in temperatures, winds and especially ice composition - that the Arctic will be ice-free in summer within about 20 years, and that much of the decrease will be happening within 10 years," Wadhams told the BBC. The exact impact of an ice-free Arctic on the global climate system is unknown, but scientists know that the lack of ice may accelerate global warming, as less sunlight is reflected back into space, slow down the gulf stream, which is responsible for the relatively mild climate in North-Western Europe, and dramatically change the marine eco-system.

Earlier this year Plus collaborated with Arctic Survey Education to produce a set of teaching resources exploring the science behind the survey. The resources look at climate and sea ice models, GPS and cartography, how to predict future climate trends, and how to present statistical evidence. To find out more about maths and the Arctic, read the Plus article Maths and climate change: The melting Arctic, which is based on an interview with Peter Wadhams. You can find out more about Wadhams's latest announcement on the BBC website.

posted by Plus @ 9:00 AM

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October 15, 2009
Friday, October 16, 2009

Plus was brought to you by light

This year's Nobel Prize in Physics has gone to three scientists for developing the technology that makes Plus possible. Charles K. Kao has received one half of the prize for developing the optical fibres that transmit information throughout the world. The other half of the prize is shared by Willard S. Boyle and George E. Smith for developing the digital camera's electronic eye, known as the CCD sensor.

Information is transmitted over the internet using light. A flashing laser beam is directed through optical fibres, with the flashes encoding the 0s and 1s that make up digital information. This process works because when the light beam hits the glass walls of the fibre, it bounces off and is moved forward. Optical fibres had been used even before the invention of the laser, for example by doctors to look into people's stomachs, but they were only capable of transmitting information over very short distances, as the light quickly leaked away when travelling through the fibre. When Charles Kao started working in the field in the 1960s, his aim was to improve the technology so that all of 1% of light would arrive at the end of a 1km long cable. Today, due to Kao's work and the generation of scientists he inspired, this number has increased to 95%! As a result, the network of optical glass fibres that spans the Earth today is over 1 billion km long. If you wrapped that length around the Earth, you would span it more than 25 000 times.

Light also plays an important role in the work of the other two prize recipients. Boyle and Smith were trying to develop larger memory capacity for computers, when they realised that Albert Einstein's photoelectric effect could be put to good use. According to this effect, electrons can be "knocked about" using light. Boyle and Smith realised that by knocking electrons out of light sensitive cells sitting in a silicone plate, they could transform an optical image into electric signals, which in turn could be turned into digital information. By 1975 Boyle and Smith had used their invention to construct a digital video camera which was good enough to manage TV broadcasts. In 1995, the first ever fully functioning digital camera was produced, and the rest is history. And although the CCD sensor has recently been challenged by another piece of technology, the complementary metal oxide semiconductor, bets are still on as to which of the two will rule the future.

For more information, visit the Nobel Prize website.

posted by Plus @ 9:00 AM

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October 14, 2009
Thursday, October 15, 2009

Buses may be safer than babies, at least when it comes to swine flu. Preliminary results from an online flu survey suggest that contact with children poses one of the greatest swine flu risk factors, while the use of public transport seems surprisingly safe.

Read more!

Plus will soon bring you a package of articles on the maths behind swine flu. But first we would like to know what you think has been the best source of information about swine flu? Did the media do well reporting on the virus? What about government information? Or did you go and see your GP to find out what to do about swine flu? Please let us know by voting in this quick poll, or tell us in more detail what information you found useful, or a nuisance, by leaving a comment on this blog.

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posted by Plus @ 8:56 AM

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