According to the website, the 11th of May 1812 was the day that the waltz was first introduced into English ballrooms. Of course this date does not represent the first performance of the popular dance form known as the waltz – it originated much much earlier, around the 16th century, to be exact.

The waltz must be one of the most stylish and graceful of the classic ballroom dance styles. (© All Rights Reserved)
The waltz must be one of the most stylish and graceful of the classic ballroom dance styles.
(© All Rights Reserved)

Initially a vigorous peasant dance with wild, wide steps, the waltz became more ‘proper’ and elegant as it was introduced to higher society. The hopping action in the country waltzes became a sliding step, and the dance involved an elegant gliding rotation. Early waltzes were defined more by the gliding rotation than the 3/4 beat. Over time, however, the waltz became the dance we know and love today, based essentially on the Viennese waltzes of the late 18th century. In contemporary ballroom dancing, the fast version of the waltz is referred to as the ‘Viennese waltz’.

Being a dance based on a ‘closed’ dance position, the waltz was considered quite shocking and even immoral when it was first introduced. Hard to imagine when you consider how proper and subdued a waltz seems these days, compared to some modern dance forms – it isn’t exactly ‘dirty dancing’!

Now in case you’re wondering what the scientific significance of the waltz is, I’d have to concede I haven’t been able to find ‘the science of the waltz’. But, I did find information about a computer scientist called David Waltz, who posed some interesting theories about the increasing role that computers are playing in scientific experiments.

Waltz suggested that computers are not only useful in data collection, but may also start playing increasingly important roles in scientific evaluation and decision making. According to an article published in Science by Waltz and his colleague Bruce Buchanan, “the prospect of using automated systems as assistants holds vast promise as these assistants are becoming not only faster but much broader in their capabilities — more knowledgeable, more creative, and more self-reflective. Human-machine partnering systems that match the tasks to what each partner does best can potentially increase the rate of scientific progress dramatically, in the process revolutionizing the practice of science and changing what scientists need to know.”

Fascinating stuff, but admittedly a tenuous link to the Viennese waltz of a couple of hundred years ago. So for now, let’s just get back to the grace and style of the classic waltz – surely enough reason for celebration in itself.

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