In my blogroll, I link to Tim Gowers’ blog. He is a very eminent mathematician, and so it is interesting to see what motivates him to write a blog about mathematics. This latest post goes a large way to explaining why. He starts by speculating about the features of some piece of research that might render it conventionally unpublishable, highlighting two reasons; (1) it is not original and (2) it does not lead anywhere conclusive. He then goes on to show how either outcome might nevertheless be useful to someone, even if unpublishable conventionally. The rest of his post then concentrates on the cap-set problem in pure mathematics. It boils down to the observation that the community as a whole might often spot something that individual might have a blind spot for. Or, that others may in turn be inspired by lines of research which had apparently led nowhere for the original poster. Tim of course is favoured by having often 80+ comments appended to each of his posts!
Is there a difference between a scientific blog and scientific journal?
January 14th, 2011A comparison of left and right handed DNA double-helix models.
January 1st, 2011When Watson and Crick (WC) constructed their famous 3D model for DNA, they had to decide whether to make the double helix left or right handed. They chose a right-handed turn, on the grounds that their attempts at left-handed models all “violated permissible van der Waals contacts“. No details of what these might have been were given in their original full article (or the particular base-pairs which led to the observation). This follow-up to my earlier post explores this aspect, using a computer model.
The melting points from benzene to cyclohexane: a prime example of dispersion forces in action?
December 30th, 2010One of the delights of wandering around an undergraduate chemistry laboratory is discussing the unexpected, if not the outright impossible, with students. The >100% yield in a reaction is an example. This is sometimes encountered (albeit only briefly) when students attempt to recrystallise a product from cyclohexane, and get an abundant crop of crystals when they put their solution into an ice-bath to induce the crystallisation. Of the solvent of course! I should imagine 1000% yields are possible like this.
Do marauding electrons go in packs?
December 27th, 2010Is there a preferred pack size for electrons on the move? Or put less flamboyantly, is there an optimum, and a maximum number of arrows (electron pairs) that one might push in revealing the mechanism of a concerted reaction? A sort of village-instinct for electrons. Consider the following (known, DOI: 10.1016/S0040-4039(00)98289-3) reaction
Embedding molecules in blogs: ChemDoodle, WebGL and SVG
December 24th, 2010If you get a small rotatable molecule below, then ChemDoodle/HTML5/WebGL is working. Why might this be important? Well, the future is mobile, in other words, devices that rely on batteries or other sources of built-in power. This means the power guzzling GPU cards of the past (some reach ~400 Watts!) cannot be used. Rather than using e.g. a full power OpenGL library, one will use Web-based graphics libraries, which (to quote Wikipedia) extends the capability of the JavaScript programming language to allow it to generate interactive 3D graphics within any compatible web browser. A typical target device might be for example Apple’s iPad (for which the redoubtable Jmol, which is based on Java, is unlikely to ever work).
(re)Use of data from chemical journals.
December 22nd, 2010If you visit this blog you will see a scientific discourse in action. One of the commentators there notes how they would like to access some data made available in a journal article via the (still quite rare) format of an interactive table, but they are not familiar with how to handle that kind of data (file). The topic in question deals with various kinds of (chemical) data, including crystallographic information, computational modelling, and spectroscopic parameters. It could potentially deal with much more. It is indeed difficult for any one chemist to be familiar with how data is handled in such diverse areas. So I thought I would put up a short tutorial/illustration in this post of how one might go about extracting and re-using data from this one particular source.
Following one’s nose: a quadruple bond to carbon. Surely I must be joking!
December 16th, 2010Do you fancy a story going from simplicity to complexity, if not absurdity, in three easy steps? Read on! The following problem appears in one of our (past) examination questions in introductory organic chemistry. From relatively mundane beginnings, one can rapidly find oneself in very unexpected territory.