There is Music in Every Building

THERE IS MUSIC IN EVERY BUILDING

SEPTEMBER 2019

Back in March, I was lucky enough to take part in the annual TEDxCambridgeUniversity conference as one of the 14 speakers. Whilst daunting, this presented a wonderful opportunity to explore and develop my personal interest in architecture and music and how they might interrelate.

I am passionate about both subjects and have long since had a hunch that they are linked. This notion centred around the idea that both architecture and music are composed of layers. On further investigation, numerous parallels became apparent despite the fundamental difference that architecture is visual, physical, and music is aural, intangible.

They share common language – structure, rhythm, harmony, texture, form and so on.

They are both compositions. Architectural composition is the arrangement of building components in space, sensed with our eyes. Musical composition is the arrangement of sounds in time, sensed with our ears.

Architecture is given its distinctive quality or character through choice of materials – stone, brick, timber, glass and so on. The musical equivalent is the range of instruments and sounds available to a composer – piano, strings, brass, percussion for example.

Architectural drawings are like sheet music, one instructing builders on how to construct a building and the other instructing musicians on how to perform a piece of music. In this way, a busy building site resembles an orchestra.

In considering the relationship, one can’t go too far without referencing Johann Wolfgang von Goethe’s famous 18th century quote that “Architecture is frozen music”. This suggests solidifying, giving physical presence to sounds and led me to another line of questioning – can we translate the visual, physical, spatial components of architecture into the aural, intangible, time-based components of music? Can we look at a building and hear its music?

To help find answers, I contacted my brother – an electronic music producer – and we agreed to work together on a musical representation of a façade designed by this office – West Court for Jesus College Cambridge. It lends itself well to the test as there is a clear rhythm and well-defined order to the visual composition.

We considered each bay of the façade as a bar in the music with each layer of the façade translated into a different musical component. Repetitive structural brick piers were translated to a beat. The stone fins added to the rhythm as another layer of percussion. The first floor windows were represented as piano chords, setting the groove and reinforcing the meter of the composition. The two floors above were translated into layers of melody, and the hidden foundations dictated the bassline.

The exercise was intended to be diagrammatic. My brother had many ideas about how to make a better piece of music but for me, the legibility of the translation was key. We could have pushed it further, giving more thought to which sounds or instruments might be best suited to different materials for example.

A lot has been written about the links between Classical architecture and music but I am more interested in the here and now. We are in a technological revolution. With the introduction of computers as a compositional tool over the last few decades, I think it is more apparent than ever that both contemporary architecture and music involve the organised, now computer-aided repetition of a series of components.

Today the primary instrumental music is Electronic. It is generally composed on a computer and it is this computer that “performs” the piece, creating the final “recording”. It is still the case that most buildings today are built, or at least put together, by hand, but change is afoot. The use of 3D printing, drones and even robots on building sites hints at a future in which computers replace humans as the “performers” in construction.

If we think about the classical music of the past in terms of the classical buildings of the past, we can align its melodies and orchestration with ornament, craft, organic sculptural form. Contemporary architecture is closer to electronic music. For some this will have negative connotations but it is important to recognize the full spectrum, from the mundanity of elevator music (or Muzak), to the ubiquity of pop music, and on to the progressive sounds of electro, house, techno and so on. As computers continue to have more impact on the way we practice, architects must embrace their potential in the same way music producers have, striving to be more Techno than Muzak.

To view the talk please click here.

A STONE GLOSSARY

MAY 2018

William ‘Strata’ Smith’s 1815 Geological Map, the first nationwide geological map ever published.

We are in the process of choosing the stone to be used for a new building in Cambridge. It has been an apparently exhaustive journey through marbles and limestones from the UK, Europe and beyond. We amass endless samples, and talk in detail to quarrymen, masons and engineers about bed heights, weathering, and reliability of supply, as well as the inevitable costs to quarry the stone, cut it to shape, and fix it together to form a building. One of the most fascinating elements of this process are the specialist terms used to describe building stones and their properties. Below is a list of a few favourite words, ordered to explain the material properties that have so far governed our explorations for this new project.

The Clipsham Quarry at Rutland in Lincolnshire. Clipsham Stone occurs in the Inferior Oolite of the Jurassic System, where it was laid down between 174 and 163 million years ago. Clipsham is a popular building limestone with a characteristic golden colour. We have recently worked with it at Bishop Edward King Chapel in Cuddesdon and the Sultan Nazrin Shah Centre in Oxford.

Bedding plane

Many building stones, including all limestones, are sedimentary rocks, formed by the gradual settlement and compression of underwater sediment over millions of years. The directional way in which they were formed governs their properties and how they can be used as building stones. Most UK limestones must be used ‘naturally bedded’, i.e. orientated in the building in the same way that they were formed in the ground. This means the height of the blocks is limited to the depth of the bed, rarely more than 1m in the UK. ‘Face-bedding’, when blocks are laid so their bedding planes are parallel with the vertical face of the block, can lead to rapid weathering and crumbling.

Metamorphic

A stone that began as another type of rock and changed as a result of exposure to heat and pressure over geological time. Marble was originally limestone, and is chemically identical to it. However, the metamorphic processes changed its physical properties so that it does not have bedding planes, and can be cut and orientated in any direction. This makes it ideal if tall blocks are required.

Precipitation

The chemical process by which Travertine is formed, usually when geothermally heated water is exposed to the air, causing it to degas and carbonate minerals to precipitate out from the water. Although a type of limestone, its distinctive formation means it also doesn’t have bedding planes and is workable in much longer, thinner pieces than sedimentary stones.

Oolitic

A type of limestone made from an amalgamation of individual grains called ooliths. An oolith is a tiny carbonate particle surrounded by concentric layers of calcium carbonate, which were deposited as the ooliths were rolled around on the bed of the clear shallow sea in which the stone was formed. This gives the stone an even structure so it can be cut or sculpted in any direction, a characteristic which makes oolitic stones ‘freestones’. Portland Stone is an oolitic limestone used extensively in London’s historic buildings, perhaps most famously in churches by Cristopher Wren and Nicholas Hawksmoor, including St Paul’s Cathedral and Christ Church Spitalfields.