50 Unit exposure vs 25, ‘Bayer MaterialScience’

New photopolymer etching, 420 x 594 mm, named ‘Bayer MaterialScience’ (2016)

I named it ‘Bayer MaterialScience’ due to the text that becomes visualised through the process I use.

I’m using the usual process with static electricity, discharging it onto plastic and then visualising it with toner powder. An interesting development with this process has been the discovery of text. Usually I am just able to visualise the static charge, but I also have been able to visualise the text on the plastic wrapping. As the plastic wrapping is peeled away, I already hear static clicks – and a negative of the writing is left on the plastic. I then visualise the text. Interestingly, through the photopolymer process, the writing finds itself ‘corrected’ – it is no longer back to front in the final etching. This whole process in the etching workshop is a multi-layered deconstruction and play with the printing process.


Below, I also compare the photopolymer etching produced by using a 50 and a 25 unit exposure. I am not entirely sure which look I prefer. I think some of the detail has been burned out for the 50 unit exposure – some of the richness is lacking – but I like the particularly strong contrast for the 50 unit exposure and the way the text has become slightly accentuated.



Reading this, I’m fascinated by the use of a cloud chamber as a conceptual analogy for Abstract

Expressionism. I am also interested in the idea of a scientific demonstration to illustrate the work of an artist.

‘In discussing the action paintings of Jackson Pollock, Brad (a student) set up a visual and conceptual analogy through performance art. Constructing a cloud chamber as it is used in a physics laboratory to track the movement of sub-atomic particles being released from small amounts of radioactive material, he placed an isotope (radium) upon the head of a pin. Imbedded in a cork, the pin was suspended in the cloud chamber below a small piece of alcohol-soaked cloth. Brad sealed the cloud chamber onto a metal plate, which was then placed on a block of dry ice. Next, the intensified light of a slide projector was projected though the chamber. The alcohol condensed and formed a cloud layer over the cold metal plate. As subatomic particles dispersed from the isotope and passed through the cloud, they created additional condensation through their paths, thus making their movement visible. Brad’s non-art gesture in the art history class provided a metaphor by which to understand Pollock’s dynamic movement and drips of paint as an entropic process where matter is continually dispersed in nature.’

‘Brad’s use of a cloud chamber from the physics laboratory to reveal particle dispersion as a metaphor of Jackson Pollock’s action paintings… represent examples of live conundrums…

The word entropy and it’s usage here is the most interesting to me. The word itself can have many meanings. I would say the meaning here is:

(A British Dictionary definition) A lack of pattern or organization; disorder




  1. (on a macroscopic scale) a function of thermodynamic variables, as temperature, pressure, or composition, that is a measure of the energy that is not available for work during a thermodynamic process. A closed system evolves toward a state of maximum entropy.
  2. (in statistical mechanics) a measure of the randomness of the microscopic constituents of a thermodynamic system. Symbol: S.


(in data transmission and information theory) a measure of the loss of information in a transmitted signal or message.


(in cosmology) a hypothetical tendency for the universe to attain a state of maximum homogeneity in which all matter is at a uniform temperature (heat death)


a doctrine of inevitable social decline and degeneration.

Since Pollock learnt to ‘curveball his drips’ – he had a control over his paintings – they were visually chaotic to the untrained eye, but, I assume, to him, he could describe every choice and mark he made. This, again, reminds me of Joyce describing ‘Finnegan’s Wake’ – Despite Joyce’s revolutionary techniques, the author repeatedly emphasized that the book was neither random nor meaningless; with Ellmann quoting the author as having stated: “I can justify every line of my book.”

Then, we see this quote from Pollock himself:

With experience it seems to be possible to control the flow of paint, to a great extent, and I don’t use – I don’t use the accident – ’cause I deny the accident.. ..it’s quite different from working, say, from a still life where you set up objects and work directly from them. I do have a general notion of what I’m about and what the results will be. I approach painting in the same sense as one approaches drawing, that is, it’s direct.

“William Rubin: ‘Actually, Pollock’s work was incredibly, highly controlled. And it took him years to perfect the technique’…’People might say: ‘Anyone can pour paint,’ well that might be true. But, anyone can go up to a piano and push the note ‘c,’ and your ‘c’ will be as good as Rubinstein’s or Horowitz’s. And by the same token, if you spill a little paint, that’s going to be as good as Pollock’s for just that little spill. What makes Horowitz, or Rubinstein is the succession of accents, and the control and and interrelations of these accents as they come one after another. That is what we call the ‘touch’ of the pianist. But the (single) ‘tone’ is the same for you and for Pollock’…”

I’m interested about this. All I would say is a pianist has to learn to sight read, and play something that is already set accurately. I could write a piece, and hear someone play it to me, and know when a wrong note has been played. It wouldn’t just be me who could distinguish that a ‘wrong note’ had been played – it would be most musicians with well-trained ears.

Could we have put Pollock to the test to see if his drips were really incredibly ‘controlled?’ If he, indeed, could ‘flick paint with the accuracy of a cowboy with a lasso’ – we could have him set the positions on a large canvas and ask him to drop the paint in these small places. Pollock would ‘pre-set’ these positions, then paint them in order. I feel like I’d be doing a sort of James Randi test on Pollock!

This would be a move towards a truer equivalence between sight reading and Abstract Expressionism.

Is it a false equivocation? You could say one is particularly disciplined, with each note being played back perfectly – modern art is a relaxation of the idea that you need to ‘learn a craft with vigorous discipline over decades’… Hmm……

Perhaps I’m wrong! I’m just thinking about it…

‘Side Effects’

‘Side Effects’ and ‘Why Make it Simple, When You Can Make It Complex?’
a collaboration between Arts Catalyst, Robert Whitman, The Performance Studio and MA Art and Science at Central Saint Martins
Text by Nicolas Strappini, Virginie Serneels and Monika Dorniak (MA Art and Science)
Phase 1:
Collaboration with Robert Whitman, ‘Side Effects’ 07/10/2016Phase 2:
Arts Catalyst 29/10/2016
A show at the Performance Studio, Peckham, Why Make it Simple When You Can Make It Complex?’ 09/11/2016

‘Why Make it Simple, When You Can Make it Complex?’ came into being as a result of a two month collaboration between Central Saint Martins and Arts Catalyst. Our temporary artist group consisted of students Monika Dorniak, Virginie Serneels and Nicolas Strappini from MA Art & Science, and external alumni Verena Hermann and Mary Simmons, MA Fine Art at UCA Farnham. The initial reason for the project was as a development of Arts Catalyst’s exhibition about the revolutionary ‘9 Evenings’ project presented in New York (1966), involving artists such as Robert Rauschenberg, Yvonne Rainer and John Cage.

Photographs by Christopher Fernandez of Side Effects performance at Central Saint Martins, 7 October 2016In the first stage of our project we worked together with one of the original participants, Robert Whitman, helping to develop his performance presented on the 7th of October. The performance re-invented the rules of theatre and performance by including engineering elements, and integrating off-stage activities with live video footage. You can view the full performance here.

In the second stage of the project we were asked to develop new works that questioned the idea of performance in the 21st century. Marita Solberg, a visual artist and musician based in Tromsø and Manndalen, Northern-Norway, developed a workshop with us to help facilitate the generation of ideas. For our group show we worked with David Thorne, the founder of The Performance Studio in Peckham. In response to the performance we presented our artistic interpretations at Arts Catalyst (29th of October) and The Performance Studio (9th of November).The title ‘Why Make It Simple When It Can Be Made Complex?’ was decided during our group conversations about life in the Anthropocene, considering the loss and gain of control through technological developments. With the diversity of our backgrounds the presentations developed individually and included elements of robotics, chemistry, neurology, theatre design, dance, engineering and fine art. While some of the works invited the audience to interact and participate in artistic debates, others were classically designed to be observed by the viewer.

More Information on our individual projects:

Monika Dorniak ‘The Metacognitive Tool’

Performer: Alice WeberVirginie Serneels ‘9 Evenings & Side Effects reload’

Nicolas Strappini ‘Wimshurst, Powder’

I explore CERN

From the Central Saint Martins website, images by Nicolas Strappini


From experiments with cloud chambers to exploring NASA space models and a meeting with a Nobel Prize winner, 21 students and staff from our MA Art and Science explored CERN on an intensive four-day trip to Geneva. Some of them share their experiences of the trip below. 

Below: Nicolas Strappini at the Large Hadron Collider


“We set out to find out as much as we could about the work and life of CERN, challenging our preconceptions of how art could help with the process of thinking and conceiving new ideas.  We found out so much about everything from detectors to the photons in the Large Hadron Collider. I’m looking forward to making more black hole experiments back at CSM.“
Heather Scott, second year student

“One of my highlights was the final lecture from Prof. John Ellis, who reminded us of a painting by Gauguin which had the following statements tucked in a corner: ‘Where do we come from?’, ‘What are we?’, ‘Where are we going? CERN focused the mind on attempting to better understand the universe and what we can contribute to the sharing of scientific thought.”
Maria Macc, second year student


“I was particularly keen to experience Mick Storr’s cloud chamber experiments with my colleagues. We were challenged to think as physicists or meteorologists, to create our own chambers and describe our findings. Eventually we worked through our observations and in one afternoon we had created a device to display cosmic rays which are all around us!”
Nicolas Strappini, second year student

“CERN’s mission is to explore the origins of the universe, answering questions about where we come from and what we are made of. The science involves a discourse engaged with data, numbers, chemicals and particles. But the outcome is about humans and humanity, and the individuals driving this search are as important as the knowledge coming out of it.”
Jill Mueller, 1st year MAAS

We are very grateful to Dr Mick Storr, Dr Michael Hoch and all their colleagues at CERN. And, thanks to our colleague Dr Andy Charalambous, Associate Lecturer on the MA, for setting up the trip.

Following this trip, the students along with the accompanying tutors plan to create a display inspired by their visit – follow MA Art and Science on Twitter or Facebook for exhibition and research updates.

The experiences and insights featured in this piece were sourced by second year MA Art and Science student Maria Macc.

Open Studio event and performances from Kyoto Saga University of the Arts; Olfactory art

Olfactory art is somewhat uncommon. However, there is something intoxicating about the idea – humans have become fascinated by searching for heady scents – from ambergris to musk. Quite often, the most intoxicating smells seem to come from the most unsavoury sources – whale vomit (ambergris) and musk – secretions from mammalian scent glands.

It seems we value our visual and auditory senses more highly when considering art – during the performances, an artist from Kyoto Saga mentions how smell is acknowledged, then dropped immediately. We don’t really consider how subjective our experience of scent may be. According to this Ted talk, 75% of people can’t detect an unusual smell in urine after the consumption of asparagus. http://ed.ted.com/lessons/how-do-we-smell-rose-eveleth

There seems to be a whole world of untapped potential in the specific world of smells.

I very much enjoyed smelling the sandalwood incense and learning about Kōdō – the specific ceremony. The whole experience was intoxicating. The performance piece and interactive elements involved in the artwork documented below contained a sense of tension – spectators watched as they waited for the participants to drop pink or white flowers. Dropping a red flower would signal that the participant found a certain aroma sexually exciting. It turned out that nobody dropped a red flower. During conversation with people about the performance, one spectator noted that the interpretation of pink or red as sexual and white as pure was somewhat outdated, and that for perfume adverts, this dichotomy was almost always echoed. It is reminiscent of the blue for a boy and pink for a girl gender myth.

The Open Studio was a worthwhile event. I had many interesting conversations and have a lot of reading to do.

I was spoken to about SQUIDS (are the basis of MEG http://organizations.utep.edu/portals/1475/nagel_bat.pdf


SQUID is a very sensitive magnetometer used to measure extremely subtle magnetic fields… I want to see how I can incorporate this idea into my work.


Dr Adam Taylor Tierney — Department of Psychological Sciences, Birkbeck, University of London

I also want to research Adam Taylor Tierney a bit more:

Dr Adam Taylor Tierney specialises in the human auditory and motor systems that provide the foundation for abilities such as language and music in the Department of Psychological Sciences at Birkbeck, University of London.



Journal of Pedagogic Development: https://journals.beds.ac.uk/ojs/index.php/jpd/article/view/320/500

I also found out about stochastic processes in relation to my work, and the matter of Monte Carlo models and statistical corrections for gyroscopic motion.