Michael Faraday's GUT

Posted on March 6, 2009 by swansont

Michael Faraday, grand unified theorist? (1851)

The common thread of many of [Faraday’s] discoveries is their goal: demonstrating that all the physical forces of nature are but different manifestations of a single, ‘universal’ force. This idea was a surprisingly modern one for Faraday’s time, and is known today as a unified field theory. Such research was likely on the minds of many researchers of that era, however: once Ørsted discovered that a magnetic compass needle could be deflected by an electric current, the notion that all forces might be related was a tantalizing dream. Faraday went further than any of his contemporaries in realizing that dream, and experimentally cemented the link between electricity and magnetism and light. Faraday was by no means done, however, and in 1851 he published the results of his attempts to demonstrate that electricity and gravity are related!

This is Highly Significant

Posted on March 6, 2009 by swansont

Basics: Significant Figures

The idea of significant figures is that when you’re doing experimental work, you’re taking measurements – and measurements always have a limited precision. The fact that your measurements – the inputs to any calculation or analysis that you do – have limited precision, means that the results of your calculations likewise have limited precision. Significant figures (or significant digits, or just “sigfigs” for short) are a method of tracking measurement precision, in a way that allows you to propagate your precision limits throughout your calculation.

Another Condensed Matteron

Posted on March 6, 2009 by swansont

What are magnons?

Another in my continuing series trying to explain some condensed matter concepts in comparatively jargon-free language. So far I’ve talked about electron-like quasiparticles, phonons, and plasmons. Now we consider magnons, also known as “spin waves”. A magnon is another collective excitation, like a phonon or a plasmon, that may be described by a wavelength (or equivalently a wavevector) and an accompanying frequency.