IN MY OWN WORDS: HENRI BERGSON’S CREATIVE EVOLUTION

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Iain McGilchrist recommended Bergson’s Creative Evolution as a way to understand the reality and importance of time, or, as Bergson himself would have it, duration.  I found the book hugely inspiring and, so as to really understand (and remember) the extent and complexity of Bergson’s thinking, I decided to summarise the book in my own words, as best as I could.  I’m still digesting the full scope of what Bergson thinks and so what follows is not my opinion about his ideas, but as always, I would love nothing more than to engage in discussion.  You can read the whole book itself here.
Adam John Miller, March 2019

Introduction

Our faculty of intellect has evolved from our faculty of action, intended to best fit the body to its environment and to represent the relationships of external things amongst themselves.  Action is impossible without fixity and stability and so the intellect feels at home amongst the inanimate.  The immobile is all it knows.  If the intellect is created by life then how is it possible for it to wholly embrace life, of which it is but an aspect?  Not one of the aspects of our thought: unity or multiplicity, mechanical causality or intelligent finality, applies exactly to the things of life.

“Who can say where individuality begins and ends, whether the living being is one or many, whether it is the cells which associate themselves into the organism or the organism which dissociates itself into cells?”

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THE BLIND SPOT

In general terms, here’s how the scientific method works. First, we set aside aspects of human experience on which we can’t always agree, such as how things look or taste or feel. Second, using mathematics and logic, we construct abstract, formal models that we treat as stable objects of public consensus. Third, we intervene in the course of events by isolating and controlling things that we can perceive and manipulate. Fourth, we use these abstract models and concrete interventions to calculate future events. Fifth, we check these predicted events against our perceptions. An essential ingredient of this whole process is technology: machines – our equipment – that standardise these procedures, amplify our powers of perception, and allow us to control phenomena to our own ends.

The Blind Spot arises when we start to believe that this method gives us access to unvarnished reality. But experience is present at every step. Scientific models must be pulled out from observations, often mediated by our complex scientific equipment. They are idealisations, not actual things in the world. Galileo’s model of a frictionless plane, for example; the Bohr model of the atom with a small, dense nucleus with electrons circling around it in quantised orbits like planets around a sun; evolutionary models of isolated populations – all of these exist in the scientist’s mind, not in nature. They are abstract mental representations, not mind-independent entities. Their power comes from the fact that they’re useful for helping to make testable predictions. But these, too, never take us outside experience, for they require specific kinds of perceptions performed by highly trained observers. 

For these reasons, scientific ‘objectivity’ can’t stand outside experience; in this context, ‘objective’ simply means something that’s true to the observations agreed upon by a community of investigators using certain tools. Science is essentially a highly refined form of human experience, based on our capacities to observe, act and communicate. 

So the belief that scientific models correspond to how things truly are doesn’t follow from the scientific method. Instead, it comes from an ancient impulse – one often found in monotheistic religions – to know the world as it is in itself, as God does. The contention that science reveals a perfectly objective ‘reality’ is more theological than scientific.

Recent philosophers of science who target such ‘naive realism’ argue that science doesn’t culminate in a single picture of a theory-independent world. Rather, various aspects of the world – from chemical interactions to the growth and development of organisms, brain dynamics and social interactions – can be more or less successfully described by partial models. These models are always bound to our observations and actions, and circumscribed in their application.

The fields of complex systems theory and network science add mathematical precision to these claims by focusing on wholes rather than the reduction to parts. Complex systems theory is the study of systems, such as the brain, living organisms or the Earth’s global climate, whose behaviour is difficult to model: how the system responds depends on its state and context. Such systems exhibit self-organisation, spontaneous pattern-formation and sensitive dependence on initial conditions (very small changes to the initial conditions can lead to widely different outcomes).

Network science analyses complex systems by modelling their elements as nodes, and the connections between them as links. It explains behaviour in terms of network topologies – the arrangements of nodes and connections – and global dynamics, rather than in terms of local interactions at the micro level.

Inspired by these perspectives, we propose an alternative vision that seeks to move beyond the Blind Spot. Our experience and what we call ‘reality’ are inextricable. Scientific knowledge is a self-correcting narrative made from the world and our experience of it evolving together. Science and its most challenging problems can be reframed once we appreciate this entanglement.

Let’s return to the problem we started with, the question of time and the existence of a First Cause. Many religions have addressed the notion of a First Cause in their mythic creation narratives. To explain where everything comes from and how it originates, they assume the existence of an absolute power or deity that transcends the confines of space and time. With few exceptions, God or gods create from without to give rise to what is within.

Unlike myth, however, science is constrained by its conceptual framework to function along a causal chain of events. The First Cause is a clear rupture of such causation – as Buddhist philosophers pointed out long ago in their arguments against the Hindu theistic position that there must be a first divine cause. How could there be a cause that was not itself an effect of some other cause? The idea of a First Cause, like the idea of a perfectly objective reality, is fundamentally theological.

These examples suggest that ‘time’ will always have a human dimension. The best we can aim for is to construct a scientific cosmological account that is consistent with what we can measure and know of the Universe from inside. The account can’t ever be a final or complete description of cosmic history. Rather, it must be an ongoing, self-correcting narrative. ‘Time’ is the backbone of this narrative; our lived experience of time is necessary to make the narrative meaningful. With this insight, it seems it’s the physicist’s time that is secondary; it’s merely a tool to describe the changes we’re able to observe and measure in the natural world. The time of the physicist, then, depends for its meaning on our lived experience of time.

We can now appreciate the deeper significance of our three scientific conundrums – the nature of matter, consciousness and time. They all point back to the Blind Spot and the need to reframe how we think about science. When we try to understand reality by focusing only on physical things outside of us, we lose sight of the experiences they point back to. The deepest puzzles can’t be solved in purely physical terms, because they all involve the unavoidable presence of experience in the equation. There’s no way to render ‘reality’ apart from experience, because the two are always intertwined.

To finally ‘see’ the Blind Spot is to wake up from a delusion of absolute knowledge. It’s also to embrace the hope that we can create a new scientific culture, in which we see ourselves both as an expression of nature and as a source of nature’s self-understanding. We need nothing less than a science nourished by this sensibility for humanity to flourish in the new millennium.

https://aeon.co/essays/the-blind-spot-of-science-is-the-neglect-of-lived-experience
Adam Frank, Marcelo Gleiser and Evan Thompson