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Cardiff inSPIREs Willetts

Posted in Politics, Science Politics, The Universe and Stuff with tags , , , , on July 9, 2010 by telescoper

The Minister for Universities and Science David Willetts’ important speech today at the Royal Institution in London has already attracted a considerable amount of comment and reaction. I haven’t really got time to comment on it in detail, but in between the expected warning of tough times ahead, it does contain a great deal of extremely interesting and thoughtful material, which I recommend you read if you’re interested in science policy.

Of particular interest to us here in the School of Physics & Astronomy at Cardiff University is that we get a specific mention for the wonderful work done by the Astronomical Instrumentation Group on the development of the SPIRE instrument on the Herschel Space Observatory.  Everyone’s chuffed about it, and delighted that the Minister chose to highlight this particular example of excellence.

In my speech at Birmingham University in May, I spoke of links between the academic and the vocational, the conceptual and the physical. We are not always good at this – we have world-class particle physicists at the Large Hadron Collider but sadly not many British engineers helped to build it. But there are other areas where these links between British science and technology are stronger. We not only have distinguished astronomers, but it was scientists and engineers at Cardiff University who produced the Spectral and Photometric Imaging Receiver for Herschel and Planck. This combination of scientific research and technological advance creates extraordinary dynamism, both intellectual and commercial. I see it as one of my tasks to strengthen these links.

OK, so I know SPIRE wasn’t for “Herschel and Planck” but the AIG was involved with instruments for both these missions so the point is well made anyway.

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Announcement of Opportunities

Posted in Education, The Universe and Stuff with tags , , , , on June 16, 2010 by telescoper

I mentioned this a while ago, but I thought it wouldn’t do any harm to repeat the official advertisement here. Cardiff is going large (or at least larger) in experimental physics, and the first deadline is approaching..

..so get cracking with your applications now!

Chair in Experimental Physics

Reader/Senior Lecturer/Lecturer in Experimental Physics

School of Physics and Astronomy

As the first stage of a major initiative to broaden its research activity the School of Physics and Astronomy at Cardiff University has some immediate vacancies for permanent faculty positions at either full Professor/Reader/Senior Lecturer/Lecturer level in any area of Experimental Physics, other than Astrophysics.

Applications are welcome in fields new to the School as well as those complementary to the existing strengths. Candidates working in interdisciplinary areas with a firm Physics base are also welcomed. You will be expected to have demonstrated an established programme of research, and will also be expected to teach Physics at undergraduate and postgraduate level.

The School of Physics and Astronomy at Cardiff University has strong research groups in Photons & Matter (theory and experimental), Gravitational Physics and Nanophysics, as well as a large Astrophysics programme.

You should have a PhD in Physics, Mathematics or closely-related subject.

Salary:
A point on the Cardiff Professorial Salary Scale (Chair)
£45155 – £55535 per annum (Reader)
£37839 – £43840 per annum (Senior Lecturer)
£29853 – £35646 per annum (Lecturer)

Further information about the School may be found at http://www.astro.cardiff.ac.uk/

Informal enquiries regarding these positions may be made to Professor Walter Gear, Head of School, email Walter.Gear@astro.cardiff.ac.uk

To work for an employer that values and promotes equality of opportunity, visit www.cardiff.ac.uk/jobs telephone + 44 (0) 29 2087 4017 or email vacancies@cardiff.ac.uk for an application form quoting vacancy number 186 for the Chair position and 188 for the Reader/Senior Lecturer/Lecturer position.

Closing date: Friday, 23 July 2010.

Please note vacancies are for one Chair and three Senior Lecturer/Lecturer positions.

www.cardiff.ac.uk/jobs


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Experiments and Observations

Posted in Science Politics, The Universe and Stuff with tags , , , , , on May 8, 2010 by telescoper

It’s nice to be able to pass on some upbeat news for once.

The first thing is that, after a lot of delays and a bit of haggling, the School of Physics & Astronomy at Cardiff University has finally issued advertisements for a bunch of new Faculty positions in Experimental Physics. The positions, which are tenured,  involve both Chair and Lecturer/Reader levels and there are several positions available. The School and University  have  put together a handsome start-up package for a new group and there’s plenty of spanking new experimental laboratory space to set up shop. Coupled with the fact that Cardiff is a great city to live in, with low costs and great sporting and cultural infrastructure, this should prove a tempting opportunity for someone to set up their own group.

It’s also a welcome vote of confidence from Cardiff University which, despite cuts in its overall budget, has decided to invest heavily in the School’s strategic plan. I hope and believe we’ll attract a strong field for these appointments and look forward to seeing what develops. We need a shot in the arm and this might just deliver it.

What’s particularly interesting about this clutch of new appointments is that they are open to people working in any area of physics, with the exception of astrophysics. Given the massive cuts in STFC’s budget, this is no time to be expanding in areas covered by its remit. I say that as an astrophysicist, with considerable regret but pragmatism in the face of the changing landscape of British science funding. In times of risk you have to broaden your portfolio. However, that’s not to say that astrophysics at Cardiff is downbeat. Far from it, in fact.

ESA held an international press conference to present exciting new results from the Herschel Observatory at the European Space Research and Technology Centre, Noordwijk, The Netherlands, on Thursday 6 May. A webcast of the press conference with Cardiff’s Professors Matt Griffin and Steve Eales taking part, can be seen at from http://www.esa.int/SPECIALS/Herschel. At the conference Steve Eales talked about the latest results from the Herschel ATLAS survey: an ATLAS of the Universe. ATLAS will cover one eightieth of the sky, four times larger than all the other Herschel surveys combined and is led by Professor Eales and Dr Loretta Dunne at Nottingham University.

Herschel ATLAS has measured the infrared light from thousands of galaxies, spread across billions of light-years. Each galaxy appears as just a pinprick but its brightness allows astronomers to determine how quickly it is forming stars. Roughly speaking, the brighter the galaxy the more stars it is forming. The Herschel images show that in the past there were many more galaxies forming stars much faster than our own Galaxy. But what triggered this frantic activity is not completely understood. Steve Eales said

every time astronomers have observed the universe in a new waveband, they have discovered something new. So as well as our regular science programmes, I am hoping for the unexpected.

I am hoping to get involved with the ATLAS data myself at some point as I am formally a member of the consortium, but I’ve been too busy doing other things to get involved in these initial stages so am not on any of the preliminary science papers. I hope I can get properly involved in this project sooner rather than later…

The ATLAS survey, image courtesy of ESA and the ATLAS consortium

The full press release also includes surprises on how stars are formed including work carried out by Cardiff’s Professor Derek Ward-Thompson. Herschel’s star formation surveys are beginning to reveal the mysteries behind how massive stars are created.

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Skepsis

Posted in Politics, The Universe and Stuff with tags , , , , , , on May 1, 2010 by telescoper

This past week was the final week of proper teaching at Cardiff University, so I’ve done my last full lectures, tutorials and exercise classes of the academic year. Yesterday I assessed a bunch of 3rd-year project talks, and soon those students will be handing in their written reports for marking.  Next week will be a revision week, shortly after that the examinations begin. And so the cycle of academic life continues, in a curious parallel to the  football league season – the other routine that provides me with important markers for the passage of the year.

Anyway, this week I gave the last lecture to my first-year class on Astrophysical Concepts. This is a beginning-level course that tries to introduce some of the theory behind astronomy, focussing on the role of gravity. I cover orbits in newtonian gravity, gravity and hydrostatic equilibrium in extended bodies, a bit about stellar structure, gravitational collapse, and so on. In the last part I do a bit of cosmology. I decided to end this time with a lecture about dark energy as, according to the standard model, this accounts for about 75% of the energy budget of the Universe. It’s also something we don’t understand very well at all.

To make a point, I usually show the following picture (credit to the High-z supernova search team).

 What is plotted is the redshift of each supernova (along the x-axis), which relates to the factor by which the universe has expanded since light set out from it. A redshift of 0.5 means the universe was compressed by a factor 1.5 in all dimensions at the time when that particular supernova went bang. The y-axis shows the really hard bit to get right. It’s the estimated distance (in terms of distance modulus) of the supernovae. In effect, this is a measure of how faint the sources are. The theoretical curves show the faintness expected of a standard source observed at a given redshift in various cosmological models. The bottom panel shows these plotted with a reference curve taken out so the trend is easier to see.

The argument from this data is that the high redshift supernovae are fainter than one would expect in models without dark energy (represented by the \Omega_{\Lambda}  in the diagram. If this is true then it means the luminosity distance of these sources is greater than it would be in a decelerating universe. They can be accounted for, however, if the universe’s expansion rate has been accelerating since light set out from the supernovae. In the bog standard cosmological models we all like to work with, acceleration requires that \rho + 3p/c^2 be negative. The “vacuum” equation of state p=-\rho c^2 provides a simple way of achieving this but there are many other forms of energy that could do it also, and we don’t know which one is present or why…

This plot contains the principal evidence that has led to most cosmologists accepting that the Universe is accelerating.  However, when I show it to first-year undergraduates (or even to members of the public at popular talks), they tend to stare in disbelief. The errors are huge, they say, and there are so  few data points. It just doesn’t look all that convincing. Moreover, there are other possible explanations. Maybe supernovae were different beasties back when the universe was young. Maybe something has absorbed their light making them look fainter rather than being further away. Maybe we’ve got the cosmological models wrong.

The reason I show this diagram is precisely because it isn’t superficially convincing. When they see it, students probably form the opinion that all cosmologists are gullible idiots. I’m actually pleased by that.  In fact, it’s the responsibility of scientists to be skeptical about new discoveries. However, it’s not good enough just to say “it’s not convincing so I think it’s rubbish”. What you have to do is test it, combine it with other evidence, seek alternative explanations and test those. In short you subject it to rigorous scrutiny and debate. It’s called the scientific method.

Some of my colleagues express doubts about me talking about dark energy in first-year lectures when the students haven’t learned general relativity. But I stick to my guns. Too many people think science has to be taught as great stacks of received wisdom, of theories that are unquestionably “right”. Frontier sciences such as cosmology give us the chance to demonstrate the process by which we find out about the answers to big questions, not by believing everything we’re told but by questioning it.

My attitude to dark energy is that, given our limited understanding of the constituents of the universe and the laws of matter, it’s the best explanation we have of what’s going on. There is corroborating evidence of missing energy, from the cosmic microwave background and measurements of galaxy clustering, so it does have explanatory power. I’d say it was quite reasonable to believe in dark energy on the basis of what we know (or think we know) about the Universe.  In other words, as a good Bayesian, I’d say it was the most probable explanation. However, just because it’s the best explanation we have now doesn’t mean it’s a fact. It’s a credible hypothesis that deserves further work, but I wouldn’t bet much against it turning out to be wrong when we learn more.

I have to say that too many cosmologists seem to accept the reality of dark energy  with the unquestioning fervour of a religious zealot.  Influential gurus have turned the dark energy business into an industrial-sized bandwagon that sometimes makes it difficult, especially for younger scientists, to develop independent theories. On the other hand, it is clearly a question of fundamental importance to physics, so I’m not arguing that such projects should be axed. I just wish the culture of skepticism ran a little deeper.

Another context in which the word “skeptic” crops up frequently nowadays is  in connection with climate change although it has come to mean “denier” rather than “doubter”. I’m not an expert on climate change, so I’m not going to pretend that I understand all the details. However, there is an interesting point to be made in comparing climate change with cosmology. To make the point, here’s another figure.

There’s obviously a lot of noise and it’s only the relatively few points at the far right that show a clear increase (just as in the first Figure, in fact). However, looking at the graph I’d say that, assuming the historical data points are accurate,  it looks very convincing that the global mean temperature is rising with alarming rapidity. Modelling the Earth’s climate is very difficult and we have to leave it to the experts to assess the effects of human activity on this curve. There is a strong consensus from scientific experts, as monitored by the Intergovernmental Panel on Climate Change, that it is “very likely” that the increasing temperatures are due to increased atmospheric concentrations of greenhouse gas emissions.

There is, of course, a bandwagon effect going on in the field of climatology, just as there is in cosmology. This tends to stifle debate, make things difficult for dissenting views to be heard and evaluated rationally,  and generally hinders the proper progress of science. It also leads to accusations of – and no doubt temptations leading to – fiddling of the data to fit the prevailing paradigm. In both fields, though, the general consensus has been established by an honest and rational evaluation of data and theory.

I would say that any scientist worthy of the name should be skeptical about the human-based interpretation of these data and that, as in cosmology (or any scientific discipline), alternative theories should be developed and additional measurements made. However, this situation in climatology is very different to cosmology in one important respect. The Universe will still be here in 100 years time. We might not.

The big issue relating to climate change is not just whether we understand what’s going on in the Earth’s atmosphere, it’s the risk to our civilisation of not doing anything about it. This is a great example where the probability of being right isn’t the sole factor in making a decision. Sure, there’s a chance that humans aren’t responsible for global warming. But if we carry on as we are for decades until we prove conclusively that we are, then it will be too late. The penalty for being wrong will be unbearable. On the other hand, if we tackle climate change by adopting greener technologies, burning less fossil fuels, wasting less energy and so on, these changes may cost us a bit of money in the short term but  frankly we’ll be better off anyway whether we did it for the right reasons or not. Of course those whose personal livelihoods depend on the status quo are the ones who challenge the scientific consensus most vociferously. They would, wouldn’t they? Moreover, as Andy Lawrence pointed out on his blog recently, the oil is going to run out soon anyway…

This is a good example of a decision that can be made on the basis of a  judgement of the probability of being right. In that respect , the issue of how likely it is that the scientists are correct on this one is almost irrelevant. Even if you’re a complete disbeliever in science you should know  how to respond to this issue, following the logic of Blaise Pascal. He argued that there’s no rational argument for the existence or non-existence of God but that the consequences of not believing if God does exist (eternal damnation) were much worse than those of behaving as if you believe in God when he doesn’t. For “God” read “climate change” and let Pascal’s wager be your guide….

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Black Hole Hunter

Posted in The Universe and Stuff with tags , , , on April 27, 2010 by telescoper

A discussion yesterday with one of my colleagues in the gravitational physics group here in Cardiff gave me the idea of including a little advert here for a fun website called Black Hole Hunter.

The site was developed as a part of the Royal Society Summer Exhibition 2008, Can you hear black holes collide? presented by Cardiff University, and the Universities of Birmingham, Glasgow and Southampton in the UK in collaboration with the Albert Einstein Institute and Milde Marketing in Germany.

The idea is to use your skill, judgement and lugholes to detect the gravitational wave signal from the merger of two black holes in the noisy output of a gravitational wave detector. The image on the left shows the pattern of gravitational radiation as calculated numerically using Einstein’s general theory of relativity. Why not give it a try and see how you get on?

You can play here.

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Lecture Notes

Posted in Education with tags , , , on April 25, 2010 by telescoper

One week to go before the end of teaching term, and it’s time for the dreaded questionnaires to be handed out for the purpose of gauging student feedback on our teaching. The responses from the students go off somewhere to be counted and I’ll get a summary back in due course and learn what the students made of the  series of chaotic and rambling performances I strung together to masquerade as lecture courses. At the end of the year we usually get to see a league table of who’s popular and who isn’t, but the scores aren’t very useful beyond that. More important than the tick boxes are the comments that students write about what’s good and what isn’t. I read through all those and they’re often very helpful in suggesting things to be done differently in subsequent years.

Lecturing has changed an enormous amount since I was at university almost thirty years ago. In those days we got very little in the way of printed notes and we were expected to write everything down in classes that were primarily delivered in the chalk-and-talk style, although some lecturers used overhead projectors. The disadvantage of the latter over the former was a tendency to go too quickly through the material.

As a student I just accepted this was the way things were and developed my own note-taking strategy. I trained myself to be able to write things down about as fast as the lecturer could speak. I did this by cutting out the biggest hindrance to taking notes quickly, which is the business of  making your eyes go backwards and forwards between the blackboard (or projection screen) and paper in front of you. I just wrote everything I could on the paper without looking at it. Although my handwriting was scrappy when I did this, I could keep track of just about everything that was said as well as what was written by the lecturer. Later on, I’d turn these notes into a neat copy and in the process of doing that I tried to iron out any bugs in the original notes as well as figure out things I couldn’t make sense of.

When I started lecturing I primarily used blackboards and chalk. I was teaching quite mathematical things and found this the best way to do it. For one thing the physical effort of writing made me go through the material at a reasonable pace. The other advantage is that I think mathematical proofs and derivations should not just be presented, but should happen as a process for the students to see. I always felt that a lecture would be more interesting if it appeared to be spontaneous rather than delivered from a pre-prepared script. Even if the students disagreed, I certainly enjoyed lecturing much more if there was an element of improvisation in the performance.

However, I soon noticed that many students didn’t really know how to take notes even at the modest speed I was going. They would generally only write down what I wrote on the board, not the little verbal explanations and embellishments I put in. My response to this observation was to make sure I wrote down more and consequently went through the material even more slowly. When I got to sit in as a peer reviewer of other staff lecturers, I looked at what the students around me were doing and realised that the vast majority simply didn’t know how to take notes efficiently or accurately. For many the act of writing things down took so much effort that they weren’t listening to the lecturer. I guess this stems from the changing style of teaching in schools, but even if that is true it is something that university teachers need to come to terms with.

Incidentally, I have from time to time given final-year undergraduate lectures at Italian universities (in English). When I used the same style there as at home – writing full notes on the board rather than just the equations – the students asked me why I was doing it. They all expected to have to write down what I was saying. If they could manage to do that with lectures in their second language, I don’t really see why our students can’t do it in their mother tongue!

Gradually the ubiquitous powerpoint has largely the old-fashioned style of lecturing to the extent that many lecture theatres don’t even have a blackboard. We’re generally expected to hand out complete sets of printed notes, with the result that the students don’t have to take notes of their own but also turning a lecture into an entirely passive experience.

I resisted the move to powerpoint for undergraduate lecturing for many years, but gave up and went with the flow when I moved to Cardiff.  However, what I do is a bit different from the others who teach this way. I generally use slides which have only a few bits of text, key equations and figures on them. I hand out copies of these slides at the start of each lecture and then go through them during the class, and also make the powerpoint files available on the web. This gives them all the important things, but I tell the students I expect students to annotate the handouts and make their own set of notes based on the skeleton I’ve handed out. However, it is clear that many students don’t write anything down at all during the lecture. We’ll see from the forthcoming exams how much they have actually learned.

Newer educational technology should enable us to improve the standards of teaching in universities, but I think there’s still a long way to go before we work out how to use it effectively.  In particular I think we need to question whether lectures in the old-fashioned sense should continue to provide the primary mode of teaching. My personal opinion is that we should be moving to more independent, problem-based, learning and much less of the passive spoon-feeding.  I think we should be aiming to cut the number of lectures we give by about 50% across the school and use the time and effort saved in more creative and effective ways.

We’re in the middle of a review of our course structure in the School of Physics & Astronomy at Cardiff University and I hope we take the opportunity to make radical changes not just to the curriculum but also to the way we present it. Not everyone in the School is keen on really radical changes. I think I understand why. I actually enjoy lecturing. I always have. It’s fun and it’s also a lot easier to give a lecture than to prepare large numbers of problems and write pages and pages of printed notes. Looking back at my time as a student, though, I am bound to admit that I learnt next to nothing from lectures. This was partly because many of the lecturers I had were poorly delivered but also partly because I’m not sure lectures are the best way to teach physics. We carry on doing it this way just because it’s what we’re used to.

Perhaps the biggest problem with the way we teach physics these days is that it encourages students to think of each module as a bite-sized piece that can be retained until the examinations, regurgitated, and then forgotten.  I’ve no doubt that memorizing notes  is how many students pass the examinations we set.  Little genuine understanding or problem-solving ability is needed. We promote physics as a subject that nurtures these skills, but I don’t think many physics graduates – even those with good degrees – actually possess them at the end. We should be making much more of an effort in teaching students how to use their brains in other ways than as memory devices.

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Nuit St George

Posted in Biographical with tags , on April 24, 2010 by telescoper

Still feeling a bit fragile after the Chaos Ball last night, which by itself probably indicates that it was good fun. We started out at Peter Hargrave’s penthouse flat, which is in the same block I lived in for a while before I managed to buy my house in Cardiff. My flat was much smaller and on the first floor, but Pete’s is high enough to command a majestic view of the hills to the north, and in yesterday’s lovely late evening sunshine we could even see as far as Newport, to the east, although seeing Newport wasn’t something I was particularly yearning to do.

A cocktail or two later and we were on our way to the venue just down the road at the Mercure Holland House Hotel. We got there too late for the bubbly that had been laid on to welcome the guests, as it  had all been guzzled by the students in next to no time. Still, there was plenty of wine at the tables, so there wasn’t a problem. It wasn’t Nuits St Georges, incidentally, which is a fine wine-growing region of Burgundy. I picked the title because the ball  was on St George’s Night…

The food turned out to well-presented and very tasty too.  During the meal we had musical accompaniment from a saxophone quartet and afterwards a DJ plied us with music of a more contemporary nature. It was a bit too contemporary for my tastes, in fact, and I didn’t find much I wanted to dance to. A bit of Abba would have suited me better, but then it was all aimed at the students rather than the few old fogeys on the staff who came along. Not being inspired by the  terpsichorean muse I spent the rest of the evening chatting and drinking in the bar, as well as getting in the way of various peoples’ photographs.

My famous white dinner jacket attracted some comments but fortunately didn’t attract any of the tomato soup I had for a starter. I must say everyone looked  glamorous in their posh frocks and I think people were generally having a good time and were enjoying the chance to dress up.

Most of the younger crowd headed off to a club in town to carry on the evening, and I was toying with the idea of going along but it was getting close to midnight and I was in danger of turning into a pumpkin so I climbed into a comfortable taxi and went home to crash out. I’m far too old for all that sort of carrying on.

After debauched evenings like this I usually wake up the following morning to a vague recollection that I did or said something embarrassing, which usually turns out to have been the case. This morning I just had a headache. That doesn’t mean I didn’t disgrace myself again, but if I did I don’t remember how. Senility has its advantages.

On behalf of everyone who was there and had a good time I’d like to thank Harriet and Alice for doing such a grand job organizing it!

P.S. You can find another account of the night’s proceedings on Ed’s blog.

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The Day’s Events

Posted in Biographical with tags , , , on April 21, 2010 by telescoper

Just a quick post today, because I’m worn out. Today was Cardiff University’s Open Day – not the small-scale one’s we have from time to time in the School of Physics & Astronomy, but a full-blown university-wide affair. The School is in the Queen’s Buildings, which are a little way to the East from the splendid civic buildings in the Cathays Park district of the city centre that constitute the core of the University. Naturally the organizers tend to concentrate on showing off it’s finer buildings, so many activities are centred on the posher parts, and often we don’t get that many visitors in our building especially if it’s raining and visitors don’t fancy the 15 minute walk. Today, however it was gloriously sunny and even the Physics department was packed with visitors, prospective students and their parents.

I’d agreed some time ago to give a public talk as part of the School’s activities, which meant that this morning I had a tutorial, an undergraduate lecture and a public lecture all one after the other. I was very surprised when I got to the venue for my open day talk to find it was absolutely full, with standing room only. By lunchtime I was already knackered, although the public talk was a lot of fun and the audience were very attentive and friendly. Some of them even laughed at my jokes. I got lots of questions at the end, which I always enjoy, although I was flagging by then after talking more-or-less continually for three hours.

This afternoon it was someone else’s turn to do the talking. It was the occasion of the PhD examination of Rob Simpson (orbitingfrog) for which I was Chair. Cardiff is unusual in having a Chair for PhD oral exams, as well as internal and external examiners. The Chair acts as a kind of umpire, making sure the rules are followed, but doesn’t play a very active role other than that. In fact I had the chance to chip in here and there – chiefly on matters of statistics – but also managed to get the Guardian crossword done.

I won’t talk about the substance of the examination, but it suffices to say that the examiners recommended that he be awarded the PhD subject to some corrections being made to his thesis. No doubt he’s out on the town celebrating as I type. Well done, Rob!

I got away just in time to go an collect my Tuxedo from the dry cleaners on the way home. It being good weather I thought I’d wear it for Friday’s annual Chaos Ball. I don’t know how widespread this usage is, but in Britain I’ve always thought the word Tuxedo refers to the white (or cream)  alternative to a traditional dinner jacket. That’s what I meant, anyway. I bought mine years ago in an Oxfam shop in Nottingham and hardly ever wear it, but it’s nice to push the boat out every now and again. Although it was bought second-hand about 8 years ago it still looks quite posh. Apart from the bullet hole in the back you would never have guessed it had been worn before…

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The Next Three Weeks

Posted in Biographical, The Universe and Stuff with tags , , , on April 11, 2010 by telescoper

Busy day today, getting ready for tomorrow’s return to teaching. The year’s second semester is always a strangely fragmented affair because of the Easter hiatus. We teach for eight weeks from late January until late March, have three weeks off for Easter, and then return to teach another three weeks before a brief revision period and, then, the examinations. It’s an awkward business, that gap.  There’s also quite a danger of missing lectures later on, if you happen to be teaching on a Monday, owing to the Spring Bank Holiday. I lose a lecture in that way,  for my first year module Astrophysical Concepts, although it’s only in revision week so I’m not going to be struggling for time. I hope.

I’ve organized my first year lectures (if “organized” is the right word!) in four sections and managed to make sure I finished three of them, representing areas covered by three of the four questions in the forthcoming examination, before the break. Now I just have half-a-dozen  lectures on cosmology to get through, so this bit should be reasonably self-contained and it won’t matter too much if the students have forgotten the other three parts I did before Easter.

I’ve also got my third-year particle physics lectures to finish off in this period, so it’s going to be quite a busy three weeks. Still, I’ll have plenty to distract me from the General Election campaign which will cover pretty much the same period. Polling day is May 6th, and my last (revision) lecture will be on May 7th.

Another curiosity about Cardiff’s calendar is that we only get three weeks for Easter. I seem to remember it’s usually been four weeks in the other places I’ve worked. One of the downsides of this is that we’re back to term-time while the annual National Astronomy Meeting is going on. This moves around from year to year, and this time is in the splendid city of Glasgow. I’d like to have gone, and would have done if I hadn’t had so much teaching concentrated in this period. Regrettably I’ll have to give it a miss this year.

Anyway, I was getting my notes together this afternoon, sitting in the April sunshine among the new flowers and listening to the birds singing. Completely by accident I came across this little quote from Johannes Kepler, translated from the Mysterium Cosmographicum, which I thought I’d share with you…

We do not ask what useful purpose the birds do sing, for song is their pleasure since they were created for singing.  Similarly, we ought not to ask why the human mind troubles to fathom the secrets of the heavens…  The diversity of the phenomena of Nature is so great, and the treasures hidden in the heavens so rich, precisely in order that the human mind shall never be lacking in fresh nourishment.

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Scientists in Residence

Posted in Biographical, The Universe and Stuff with tags , , , on February 23, 2010 by telescoper

I’ve managed to get through the hectic  first couple of days of what promises to be a very hectic week without feeling too much of the strain, which is quite a pleasant surprise given my advancing senility.

This week a whole bunch of Cardiff astronomers are taking part in a Scientists in Residence scheme at Monkton Combe School which nestles in among the lovely hills in the picturesque countryside near Bath. The idea was to try to give the pupils some sort of idea what it’s like being a scientist – specifically an astronomer – by having an intensive series of teaching sessions run by scientists who visit the school for several days running.  A whole range of different types have taken part, from graduate students and postdoctoral researchers all the way down to Professors. Some, in fact, have been staying overnight there too.; it’s a boarding school, in fact.

As with most things these days, I’ve been a bit of a freeloader in this thing – the course materials were prepared by others, principally Chris North, so all I had to do was turn up and lend a hand on the day. Members of the department with duties at Cardiff have only been able to go for part of the time and even that has meant, for me at least, a bit of dashing backwards and forwards on the train. On Monday I had a full complement of meetings, lectures and exercise classes in Cardiff before heading off to Bath to give an evening lecture on The Big Bang to what turned out to be quite a large and attentive audience of sixth-form students. When I finished I had to get the train back to Cardiff – about 70 minute journey – in order to be able to give Columbo his evening insulin fix in good time.

This morning I was up at six to get the train again to Bath – after doing the necessary with Columbo again – in order to take part in a classroom session where we took the students through activities centred around the idea of using the orbital motions of astronomical objects to work out masses. I found this very interesting. On the one hand the students were keen and very easy to interact with, but on the other this experience reinforced the impression that today’s A-level physics students are given a syllabus that is diluted beyond all recognition compared with what older generations of physicists learned. Even in a private school, with excellent laboratoty facilities and highly motivated teachers, it is difficult for todays 16-18 year olds to learn anything meaningful about what physics is really like.

Not having kids of my own, I’ve only observed the changes in educational standards over the last decade indirectly, so this couple of days was a bit of a reality check for me. Unless someone can be persuaded to force schools to teach science properly again, university lecturers will have to carry on doing what is essentially remedial teaching.

Anyway, I’ve found the last couple of days very interesting and I hope the others taking part in the week will enjoy it as much as I did.

You might reasonably ask why a bunch of University academics – mainly funded by the taxpayer – should be running backwards and forwards organizing activities for a posh private school? The mercenary answer is, of course, that some of the kids we’ve been talking to might actually turn into Cardiff undergraduates one day and even if only one does so, the income that generates for the School of Physics & Astronomy more than pays for the number of person-hours we have put in. But even if that doesn’t happen it’s still worth it. Our plan is to offer this type of activity to all kinds of schools in  local areas, not only for our own recruitment, but also for the general purpose of “outreach”, communicating an interest in science in the society beyond academia. This week is the first time we’ve done it. Undoubtedly some things will work and others won’t. This week we will iron out some of the problems before we take it on the road to more challenging audiences.

It will need to be a good show if it is to go down well in the Valley Comprehensives, and what better way to improve it than to practice on the rich kids?

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