Showing posts with label mind. Show all posts
Showing posts with label mind. Show all posts

Monday 6 May 2024

On the Trail of Human Consciousness


By Keith Tidman
 

Daniel Dennett once called consciousness the “last surviving mystery” humankind faces. That may be premature and even a bit hyperbolic, but not by much. At the very least, consciousness ranks among the biggest of the remaining mysteries. Two questions central to this are: Does the source of conscious experience rest solely in the neurophysiology of the brain, reducible to myriad sets of mechanical functions that necessarily conform to physical laws? Or, as some have contended, is consciousness somehow airily, dualistically separate from the brain, existing in some sort of undefinably ethereal dimension? 

Consciousness is an empirical, bridge-like connection to things, events, and conditions, boiling down to external stimuli that require vetting within the brain. Conscious states entail a wide range of human experiences, such as awareness, identity, cognition, wakefulness, sentience, imagination, presence in time and space, perception, enthrallment, emotion, visions of alternative futures, anchors to history, ideation, attention, volition, sense of agency, thought experimentation, self-optimisation, memories, opinions — and much more. Not to forget higher-order states of reality, able to include the social, political, legal, familial, educational, environmental, scientific, and ethical norms of the community. The process includes the brain's ability to orchestrate how the states of consciousness play their roles in harmony. As philosopher Thomas Nagel therefore concluded, “there is something it is like to be [us]” — that something being our sense of identity, acquired through individual awareness, perception, and experience.


The conscious mind empirically, subjectively edits objective reality. In the phrase of David Chalmers, philosopher of mind and cognitive scientist, “there is a whir of information processing” as all that complexly happens. The presence of such states makes it hard, if not impossible, to disbelieve our own existence as just an illusion, even if we have hesitancy about the accuracy of our perception of the presumed objective reality encircling us. Thought, introspection, sensing, knowing, belief, the arrow of perpetual change — as well as the spatial and temporal discernments of the world — contribute to confirming what we are about. It’s us, in an inexorable abundance of curiosity, wondering as we gaze upon the micro to the macro dimensions of the universe.

 

None of these states, however, requires the presence of mysterious goings-on — an “ethereal mind,” operating on a level separate from the neuronal, synaptic activity of the brain. Accordingly, “consciousness is real and irreducible,” as Dennett’s fellow philosopher, John Searle, observed while pointing out that the seat of consciousness is the brain; “you can’t get rid of it.” True enough. The centuries-old Cartesian mind-body distinction, with its suspicious otherworldly spiritual, even religious, underpinnings and motive, has long been displaced by today’s neuroscience, physics, and biology. Today, philosophers of mind cheerfully weigh in on the what-if modeling aspects of human consciousness. But it must be said that the baton for elucidating consciousness, two and a half millennia after the ancient world’s musings on the subject, has been handed off to the natural sciences. And there is every reason to trust the latter will eventually triumph, filling the current explanatory gap — whether the path to ultimate understanding follows a straight line or, perhaps more likely, zigs and zags. A mix of dusky and well-lit alleys.

 

Sensations, like the taste of silky chocolate, the sight of northern lights, the sound of a violin concerto, the smell of a petunia, hunger before an aromatic meal, pleasure from being touched, pain from an accident, fear of dark spaces, roughness of volcanic rock, or happiness while watching children play on the beach, are sometimes called qualia. These are the subjective, qualitative properties of experience, which purportedly differ from one person to another. Each person interpreting, or editing, reality differently, whether only marginally so or perhaps to significant extents — all the while getting close enough to external reality for us to get on with everyday life in workably practical ways. 


So, for example, my experience of an icy breeze might be different from yours because of differences — even microscopically — between our respective neurobiological reactions. This being the subjective nature of experience of the same thing, at the same time and in the same place. And yet, qualia might well be, in the words of Chalmers, the “hard problem” in understanding consciousness; but they aren’t an insoluble problem. The individualisation of these experiences, or something that seems like them, will likely prove traceable to brain circuitry and activity, requiring us to penetrate the finer-coarse granularity of the bustling mind. Consciousness can thus be defined as a blend of what our senses absorb and process, as well as how we resultantly act. Put another way, decisions and behaviours matter.

 

The point is, all this neurophysiological activity doesn’t merely represent the surfacing or emergence or groundswell of consciousness, it is consciousness — both necessary and sufficient. That is, mind and consciousness don’t hover separate from the brain, in oddly spectral form. It steadfastly remains a fundamentally materialist framework, containing the very nucleus of human nature. The promise is that in the process of developing an increasingly better understanding of the complexity — of the nuance and richness — of consciousness, humanity will be provided with a vital key for unlocking what makes us, us

 

Tuesday 24 January 2023

‘Brain in a Vat’: A Thought Experiment


By Keith Tidman

Let’s hypothesise that someone’s brain has been removed from the body and immersed in a vat of fluids essential for keeping the brain not only alive and healthy but functioning normally — as if it is still in a human skull sustained by other bodily organs.

A version of this thought experiment was laid out by RenĂ© Descartes in 1641 in the Meditations on First Philosophy, as part of inquiring whether sensory impressions are delusions. An investigation that ultimately led to his celebrated conclusion, ‘Cogito, ergo sum’ (‘I think, therefore I am’). Fast-forward to American philosopher Gilbert Harman, who modernised the what-if experiment in 1973. Harman’s update included introducing the idea of a vat (in place of the allegorical device of information being fed to someone by an ‘evil demon’, originally conceived by Descartes) in order to acknowledge the contemporary influences of neuroscience in understanding the brain and mind.

In this thought experiment, a brain separated from its body and sustained in a vat of chemicals is assumed to possess consciousness — that is, the neuronal correlates of perception, experience, awareness, wonderment, cognition, abstraction, and higher-order thought — with its nerve endings attached by wires to a quantum computer and a sophisticated program. Scientists feed the disembodied brain with electrical signals, identical to those that people are familiar with receiving during the process of interacting through the senses with a notional external world. Hooked up in this manner, the brain (mind) in the vat therefore does not physically interact with what we otherwise perceive as a material world. Conceptualizations of a physical world — fed to the brain via computer prompts and mimicking such encounters — suffice for the awareness of experience.

The aim of this what-if experiment is to test questions not about science or even ‘Matrix’-like science fiction, but about epistemology — queries such as what do we know, how do we know it, with what certainty do we know it, and why does what we know matter? Specifically, issues to do with scepticism, truth, mind, interpretation, belief, and reality-versus-illusion — influenced by the lack of irrefutable evidence that we are not, in fact, brains in vats. We might regard these notions as solipsistic, where the mind believes nothing (no mental state) exists beyond what it alone experiences and thinks it knows.

In the brain-in-a-vat scenario, the mind cannot differentiate between experiences of things and events in the physical, external world and those virtual experiences electrically prompted by the scientists who programmed the computer. Yet, since the brain is in all ways experiencing a reality, whether or not illusionary, then even in the absence of a body the mind bears the complement of higher-order qualities required to be a person, invested with full-on human-level consciousness. To the brain suspended in a vat and to the brain housed in a skull sitting atop a body, the mental life experienced is presumed to be the same.

But my question, then, is this: Is either reality — that for which the computer provides evidence and that for which external things and events provide evidence — more convincing (more real, that is) than the other? After all, are not both experiences of, say, a blue sky with puffy clouds qualitatively and notionally the same: whereby both realities are the product of impulses, even if the sources and paths of the impulses differ?

If the experiences are qualitatively the same, the philosophical sceptic might maintain that much about the external world that we surmise is true, like the briskness of a winter morning or the aroma of fresh-baked bread, is in fact hard to nail down. The reason being that in the case of a brain in a vat, the evidence of a reality provided by scientists is assumed to resemble that provided by a material external world, yet result in a different interpretation of someone’s experiences. We might wonder how many descriptions there are of how the conceptualized world corresponds to what we ambitiously call ultimate reality.

So, for example, the sceptical hypothesis asserts that if we are unsure about not being a brain in a vat, then we cannot disregard the possibility that all our propositions (alleged knowledge) about the outside physical world would not hold up to scrutiny. This argument can be expressed by the following syllogism:

1. If I know any proposition of external things and events, then I know that I am not a brain in a vat;

2. I do not know that I am not a brain in a vat;

3. Therefore, I do not know any proposition of external things and events about the external world.


Further, given that a brain in a vat and a brain in a skull would receive identical stimuli — and that the latter are the only means either brain is able to relate to its surroundings — then neither brain can determine if it is the one bathed in a vat or the one embodied in a skull. Neither mind can be sure of the soundness of what it thinks it knows, even knowledge of a world of supposed mind-independent things and events. This is the case, even though computer-generated impulses realistically substitute for not directly interacting bodily with a material external world. So, for instance, when a brain in a vat believes that ‘wind is blowing’, there is no wind — no rushing movement of air molecules — but rather the computer-coded, mental simulation of wind. That is, replication of the qualitative state of physical reality.

I would argue that the world experienced by the brain in a vat is not fictitious or unauthentic, but rather is as real to the disembodied brain and mind as the external, physical world is to the embodied brain. Both brains fashion valid representations of truth. I therefore propose that each brain is ‘sufficient’ to qualify as a person: where, notably, the brains’ housing (vat or skull) and signal pathways (digital or sensory) do not matter.

Monday 29 November 2021

Whose Reality Is It Anyway?

Thomas Nagel wondered if the world a bat perceives is fundamentally different  to our own

By Keith Tidman

Do we experience the world as it objectively is, or only as an approximation shaped by the effects of information passing through our mind’s interpretative sieve? Does our individual reality align with anyone else’s, or is it exclusively ours, dwelling like a single point amid other people’s experienced realities?

 

We are swayed by our senses, whether through the direct sensory observation of the world around us, or indirectly as we use apparatuses to observe, record, measure, and decipher. Either way, our minds filter the information absorbed, becoming the experiences funneled and fashioned into a reality which in turn is affected by sundry factors. These influences include our life experiences and interpretations, our mental models of the world, how we sort and assimilate ideas, our unconscious predilections, our imaginings and intuitions unsubscribed to particular facts, and our expectations of outcomes drawn from encounters with the world.

 

We believe that what serves as the lifeline in this modeling of personal reality is the presence of agency and ‘free will’. The tendency is to regard free will as orthodoxy. We assume we can freely reconsider and alter that reality, to account for new experiences and information that we mold through reason. To a point, that’s right; but to one degree or another we grapple with biases, some of which are hard-wired or at least deeply entrenched, that predispose us to particular choices and behaviours. So, how freely we can actually surmount those preconceptions and predispositions is problematic, in turn bearing on the limits of how we perceive the world.


The situation is complicated further by the vigorous debate over free will versus how much of what happens does so deterministically, where lifes course is set by forces beyond our control. Altering the models of reality to which we clutch is hard; resistance to change is tempting. We shun hints of doubt in upholding our individual (subjective) representations of reality. The obscurity and inaccessibility of any single, universally accepted objective world exacerbates the circumstances. We realise, though, that subjective reality is not an illusion to be casually dismissed to our suiting, but is lastingly tangible.


In 1974, the American philosopher Thomas Nagel developed a classic metaphor to address these issues of conscious experience. He proposed that some knowledge is limited to what we acquire through our subjective experiences, differentiating those from underlying objective facts. To show how, Nagel turned to bats’ conscious use of echoed sounds as the equivalent of our vision in perceiving its surroundings for navigation. He argued that although we might be able to imagine some aspects of what it’s like to be a bat, like hanging upside down or flying, we cannot truly know what a bat experiences as physical reality. The bat’s experiences are its alone, and for the same reasons of filtering and interpretation, are likewise distinguishable from objective reality.

 

Sensory experience, however, does more than just filter objective reality. The very act of human observation (in particular, measurement) can also create reality. What do I mean? Repeated studies have shown that a potential object remains in what’s called ‘superposition’, or a state of suspension. What stays in superposition is an abstract mathematical description, called a ‘wavefunction’, of all the possible ways an object can become real. There is no distinction between the wave function and the physical things.


While in superposition, the object can be in any number of places until measurement causes the wavefunction to ‘collapse’, resulting in the object being in a single location. Observation thus has implications for the nature of reality and the role of consciousness in bringing that about. According to quantum physicist John Wheeler, ‘No ... property is a property until it is observed’, a notion presaged by the philosopher George Berkeley three centuries earlier by declaring ‘Esse est percepi’ – to be, is to be perceived.


Evidence, furthermore, that experienced reality results from a subjective filtering of objective reality comes from how our minds react to externalities. For example, two friends are out for a stroll and look up at the summer sky. Do their individual perceptions of the sky’s ‘blueness’ precisely match each other’s or anyone else’s, or do they experience blueness differently? If those companions then wade into a lake, do their perceptions of ‘chilliness’ exactly match? How about their experiences of ‘roughness’ upon rubbing their hand on the craggy bark of a tree? These are interpretations of objective reality by the senses and the mind.


Despite the physiology of the friends’ brains and physical senses being alike, their filtered experiences nonetheless differ in both small and big ways. All this, even though the objective physical attributes of the sky, the lake, and the tree bark, independent of the mind, are the same for both companions. (Such as in the case of the wavelength of visible light that accounted for the blueness being interpretatively, subjectively perceived by the senses and mind.) Notwithstanding the deceptive simplicity of these examples, they are telling of how our minds are attuned to processing sensory input, thereby creating subjective realities that might resemble yet not match other people’s, and importantly don’t directly merge with underlying objective reality.

  

In this paradigm of experience, there are untold parsed and sieved realities: our own and everyone else’s. That’s not to say objective reality, independent of our mental parsing, is myth. It exists, at least as backdrop. That is, both objective and subjective reality are credible in their respective ways, as sides of the whole. It’s just that our minds’ unavoidable filtering leads to the altering of objective reality. Objective reality thus stays out of reach. The result is our being left with the personal reality our minds are capable of, a reality nonetheless easily but mistakenly conflated with objective reality.

 

That’s why our models of the underlying objective reality remain approximations, in states of flux. Because when it comes to understanding the holy grail of objective reality, our search is inspired by the belief that close is never close enough. We want more. Humankind’s curiosity strives to inch closer and closer to objective reality, however unending that tireless pursuit will likely prove.

 

Monday 29 June 2020

The Afterlife: What Do We Imagine?

Posted by Keith Tidman


‘The real question of life after death isn’t whether 
or not it exists, but even if it does, what 
problem this really solves’

— Wittgenstein, Tractatus Logico-Philosophicus, 1921

Our mortality, and how we might transcend it, is one of humanity’s central preoccupations since prehistory. One much-pondered possibility is that of an afterlife. This would potentially serve a variety of purposes: to buttress fraught quests for life’s meaning and purpose; to dull unpleasant visions of what happens to us physically upon death; to switch out fear of the void of nothingness with hope and expectation; and, to the point here, to claim continuity of existence through a mysterious hereafter thought to defy and supplant corporeal mortality.

And so, the afterlife, in one form or another, has continued to garner considerable support to the present. An Ipsos/Reuters poll in 2011 of the populations of twenty-three countries found that a little over half believe in an afterlife, with a wide range of outcomes correlated with how faith-based or secular a country is considered. The Pew Center’s Religious Landscape Study polling found, in 2014, that almost three-fourths of people seem to believe in heaven and more than half said that they believed in hell. The findings cut across most religions. Separately, research has found that some one-third of atheists and agnostics believe in an afterlife — one imagined to include ‘some sort of conscious existence’, as the survey put it. (This was the Austin Institute for the Study of Family and Culture, 2014.) 

Other research has corroberated these survey results. Researchers based at Britain's Oxford University in 2011 examined forty related studies conducted over the course of three years by a range of social-science and other specialists (including anthropologists, psychologists, philosophers, and theologians) in twenty countries and different cultures. The studies revealed an instinctive predisposition among people to an afterlife — whether of a soul or a spirit or just an aspect of the mind that continues after bodily death.

My aim here is not to exhaustively review all possible variants of an afterlife subscribed to around the world, like reincarnation — an impracticality for the essay. However, many beliefs in a spiritual afterlife, or continuation of consciousness, point to the concept of dualism, entailing a separation of mind and body. As RenĂ© Descartes explained back in the 17th century:
‘There is a great difference between the mind and the body, inasmuch as the body is by its very nature always divisible, whereas the mind is clearly indivisible. For when I consider the mind, or myself insofar as I am only a thinking thing, I cannot distinguish any parts within myself. . . . By contrast, there is no corporeal or extended thing that I can think of which in my thought I cannot easily divide into parts. . . . This one argument would be enough to show me that the mind is completely different than the body’ (Sixth Meditation, 1641).
However, in the context of modern research, I believe that one may reasonably ask the following: Are the mind and body really two completely different things? Or are the mind and the body indistinct — the mind reducible to the brain, where the brain and mind are integral, inseparable, and necessitating each other? Mounting evidence points to consciousness and the mind as the product of neurophysiological activity. As to what’s going on when people think and experience, many neuroscientists favour the notion that the mind — consciousness and thought — is entirely reducible to brain activity, a concept sometimes variously referred to as physicalism, materialism, or monism. But the idea is that, in short, for every ‘mind state’ there is a corresponding ‘brain state’, a theory for which evidence is growing apace.

The mind and brain are today often considered, therefore, not separate substances. They are viewed as functionally indistinguishable parts of the whole. There seems, consequently, not to be broad conviction in mind-body dualism. Contrary to Cartesian dualism, the brain, from which thought comes, is physically divisible according to hemispheres, regions, and lobes — the brain’s architecture; by extension, the mind is likewise divisible — the mind’s architecture. What happens to the brain physically (from medical or other tangible influences) affects the mind. Consciousness arises from the entirety of the brain. A brain — a consciousness — that remarkably is conscious of itself, demonstrably curious and driven to contemplate its origins, its future, its purpose, and its place in the universe.

The contemporary American neuroscientist, Michael Gazzaniga, has described the dynamics of such consciousness in this manner:
‘It is as if our mind is a bubbling pot of water. . . . The top bubble ultimately bursts into an idea, only to be replaced by more bubbles. The surface is forever energized with activity, endless activity, until the bubbles go to sleep. The arrow of time stitches it all together as each bubble comes up for its moment. Consider that maybe consciousness can be understood only as the brain’s bubbles, each with its own hardware to close the gap, getting its moment’. (The Consciousness Instinct, 2018)
Moreover, an immaterial mind and a material world (such as the brain in the body), as dualism typically frames reality, would be incapable of acting upon each other: what’s been dubbed the ‘interaction problem’. Therefore the physicalist model — strengthened by research in fields like neurophysiology, which quicken to acquire ever-deeper learning — has, arguably, superseded the dualist model.

People’s understanding that, of course, they will die one day, has spurred search for spiritual continuation to earthbound life. Apprehension motivates. The yearn for purpose motivates. People have thus sought evidence, empirical or faith-based or other, to underprop their hope for otherworldly survival. However, modern reality as to the material, naturalistic basis of the mind may prove an injurious blow to notions of an out-of-body afterlife. After all, if we are our bodies and our bodies are us, death must end hope for survival of the mind. As David Hume graphically described our circumstances in Of the Immortality of the Soul (1755), our ‘common dissolution in death’. That some people are nonetheless prone to evoke dualistic spectral spirits — stretching from disembodied consciousness to immortal souls — that provide pretext in desirously thwarting the interruption of life doesn’t change the finality of existence. 

And so, my conclusion is that perhaps we’d be better served to find ingredients for an ‘afterlife’ in what we leave by way of influences, however ordinary and humble, upon others’ welfare. That is, a legacy recollected by those who live on beyond us, in its ideal a benevolent stamp upon the present and the future. This earthbound, palpable notion of what survives us goes to answer Wittgenstein’s challenge we started with, regarding ‘what problem’ an afterlife ‘solves’, for in this sense it solves the riddle of what, realistically, anyone might hope for.

Monday 15 June 2020

Joad’s Concept of Personality

Posted by Richard W. Symonds
There is a small group of significant philosophers who had extraordinary turnarounds. The most famous of these is Ludwig Wittgenstein, who wrote about his magnum opus, ‘The author of the Tractatus was mistaken.’ So, too, A.J. Ayer who, in an interview with the BBC, said of his former philosophy, ‘At the end of it all it was false’. Yet perhaps the most extraordinary turnaround was the enormously popular C.E.M. Joad.
Cyril Edwin Mitchinson Joad (1891-1953) was a university philosopher at Birkbeck College London, who wrote on a wide variety of philosophical subjects, both historical and contemporary. For most of his life he rejected religion—but in the 1940s and early 1950s he first abandoned atheism, then accepted a form of theism, and finally converted to Christianity.

Not until Recovery of Belief, in 1952, did he set out the Christian philosophy in which he had come to believe. This post explores just one aspect of that philosophy, namely his theory of personality and the soul—then briefly, what motivated him philosophically, to make such a radical about-turn. Here is Joad’s later view, in his own words:
‘Having considered and rejected a number of views as to the nature and interpretation of the cosmos, I shall state the one which seems to me to be open to the fewest objections. It is, briefly, what I take to be the traditional Christian view, namely, that the universe is to be conceived as two orders of reality, the natural order, consisting of people and things moving about in space and enduring in time, and a supernatural order neither in space nor in time, which consists of a Creative Person or Trinity of Persons from which the natural order derives its meaning, and in terms of which it receives its explanation.’
In his ‘interpretation of the cosmos’, then, Joad proceeds by seeking to vindicate ‘the traditional division of the human being [as] not twofold into mind and body, but threefold into mind, body and soul.’ The reference seems to be to the view identifiable in late-Scholastic theology, that a human being has an immortal part which can sin, be forgiven, and rise at the Last Judgement (the soul); a thinking part which can understand, affirm, deny, desire, imagine (the mind); and a body which is the agent of the mind and soul.

In fairness, Joad does not claim to demonstrate the validity of the threefold analysis; he claims no more than that ‘if it were true it would cover a number of facts which seem to be inexplicable on any other’. He offers it as what we might term an inference to the best explanation. He found no better way to explain the cosmos as he found it.

The soul, Joad tells us, is ‘the essential self and is timeless’. It is incarnated in bodies but can exist without them, since after our bodily death, it remains an individual entity and ‘sustains immortality’. At this point, the influence of Plato’s theory of the soul in the Phaedo is clear. Unplatonic, however, is the notion that the soul is ‘normally inaccessible to us’, and that we at least approximate to an awareness of it in ‘mystical experience’—experience with which ‘most of us, at any rate, are acquainted [in] certain moments of transport of tranquillity that we enjoy in our intercourse with nature’.

Yet Joad’s theory does not rely solely on mystical experience. There are those, he writes, to whom mystical experience is denied. Thus he posits the soul as our ‘point of contact and communication’ with the divine ... God, to use the language of religion, influences man through his soul’.

Joad suggests that ‘The phenomena of spiritual healing and spiritual regeneration are ... most plausibly to be explained on the assumption that God, in response to prayer, acts upon us through the soul to heal the body and strengthen the mind. The soul is also the 'still small voice of God' of which we are conscious when the hubbub of ordinary life and consciousness dies down". This presupposes the existence of God, and of a God who acts in these ways.

Of the mind, Joad tells us that it ‘is brought into being in consequence of the contact of the soul with the natural, temporal order, which results from its incorporation in a physical body’. The mind cannot be identified with matter, as Locke’s ‘thinking substance’, for instance. Mind ‘cannot be adequately conceived in material terms ... Is the notion of conscious matter really thinkable?’ Joad asks rhetorically and in protest against Julian Huxley.

Yet Joad concedes that ‘The mind is, it is clear, constantly interacting with the body and the brain.’ Again, it is not Joad’s purpose to demonstrate the validity of his analysis. In fact, he states that this is a paradoxical occurrence which ‘is, by us, incomprehensible’. This incomprehensibility, further, he sees as being characteristic of what he calls ‘all the manifestations of the supernatural in the natural order’; the supernatural here being the soul—with the mind and the natural being the brain and the body.

There is, however, a crucial concept which subsumes the categories of body, mind, and soul. This is ‘personality’, which Joad describes as being ‘logically prior’ to the soul, mind, and body as the three elements of our being. He introduces us to this concept by considering the relation of a sonata to its notes, and of nation or society to its members (with a more thorough discussion of mereology).

While Joad does not define logical priority, the basic idea is that the soul (to borrow a phrase from C.D. Broad) is ‘an existent substantive’ which temporarily ‘owns’ or is characterised by the mind, the brain, and the body. Hence any idea that the person is a composite, ‘resulting from the concurrence of a number of parts’ has things the wrong way round. The person, essentially identified with the soul as ‘the seat of personality’, is prior to the ‘parts’—the mind, brain, and body.

It came down to this. C.E.M Joad considered the creeds of a single, materialist, physical order of reality ‘palpably inadequate’, almost meaningless, in explaining the universe and our place within it. ‘Personality’ seemed the only explanation left.

Fifteen years after Joad’s death, the philosophical theologian Francis Schaeffer’s major work, The God Who is There, was published in the USA. Interestingly, Schaeffer there presents ‘personality’ as his core idea. He writes that we have either ‘personality or a devilish din’. Schaeffer had an enormous influence on American society and religion. Among other things. President Ronald Reagan, thirteen years later, ascribed his election victory to Francis Schaeffer.

Joad’s final, almost forgotten book may have been more important than we suppose—but not only for society and religion. The idea of ‘personality’ as being logically prior to all else might become a critical pre-condition for humanity’s survival in the 21st century.

Monday 10 February 2020

What Is It to Be Human?

Hello, world!
Posted by Keith Tidman

Consciousness is the mental anchor to which we attach our larger sense of reality.

We are conscious of ourselves — our minds pondering themselves in a curiously human manner — as well as being intimately conscious of other people, other species, and everything around us, near and remote.

We’re also aware that in reflecting upon ourselves and upon our surroundings, we process experiences absorbed through our senses — even if filtered and imagined imperfectly. This intrinsically empirical nature of our being is core, nourishing our experience of being human. It is our cue: to think about thinking. To ponder the past, present, and future. To deliberate upon reality. And to wonder — leaving no stone unturned: from the littlest (subatomic particles) to the cosmic whole. To inspire and be inspired. To intuit. To poke into the possible beginning, middle, and end of the cosmos. To reflect on whether we behave freely or predeterminedly. To conceptualise and pick from alternative futures. To learn from being wrong as well as from being right. To contemplate our mortality. And to tease out the possibility of purpose from it all.

Perception, memory, interpretation, imagination, emotion, logic, and reason are among our many tools for extracting order out of disorder, to quell chaos. These and other properties, collectively essential to distinguishing humanity, enable us to model reality, as best we can.

There is perhaps no more fundamental investigation than this into consciousness touching upon what it means to be human.

To translate the world in which we’re thoroughly immersed. To use our rational minds as the gateway to that understanding — to grasp the dimensions of reality. For humans, the transmission of thought, through the representational symbols of language, gestures, and expressions — representative cognition — provides a tool for chiseling out our place in the world. In the twentieth century, Ludwig Wittgenstein laconically but pointedly framed the germaneness of these ideas:
‘The limits of my language mean the limits of my world’.
Crucially, Wittgenstein grounds language as a tool for communication in shared experiences. 

Language provides not only an opening through which to peer into human nature but also combines  with other cognitive attributes, fueling and informing what we believe and know. Well, at least what we believe we know. The power of language — paradoxically both revered and feared, yet imperative to our success — stems from its channeling human instincts: fundamentally, what we think we need and want.

Language, to the extraordinary, singular level of complexity humankind has developed and learned to use it as a manifestation of human thought, emanates from a form of social leaning. That is, we experiment with language in utilitarian fashion, for best effect; use it to construct and contemplate what-ifs, venturing into the concrete and abstract to unspool reality; and observe, interact with, and learn from each other in associative manner. Accumulative adaptation and innovation. It’s how humanity has progressed — sometimes incrementally, sometimes by great bounds; sometimes as individuals, sometimes as elaborate networks. Calibrating and recalibrating along the way. Accomplished, deceptively simply, by humans emitting sounds and scribbling streams of symbols to drive progress — in a manner that makes us unique.

Language — sophisticated, nuanced, and elastic — enables us to meaningfully absorb what our brains take in. Language helps us to decode and make sense of the world, and recode the information for imaginatively different purposes and gain. To interpret and reinterpret the assembly of information in order to shape the mind’s new perspectives on what’s real — well, at least the glowing embers of what’s real — in ways that may be shared to benefit humankind on a global, community, and individual level. Synaptic-like, social connections of which we are an integral part.

Fittingly, we see ourselves simultaneously as points connected to others, while also as distinct identities for which language proves essential in tangibly describing how we self-identify. Human nature is such that we have individual and communal stakes. The larger scaffolding is the singularly different cultures where we dwell, find our place, and seek meaning — a dynamically frothing environment, where we both react to and shape culture, with its assortment of both durably lasting and other times shifting norms.

Monday 26 November 2018

How Language Connects Mind, World, and Reality


The Chinese characters for not only ‘meaning’ but for ‘connotation, denotation, import, gist, substance, significance, signification, implication, suggestion, consequence, worth, nuance, association, subtext, sense’  and more!

Posted by Keith Tidman

‘The limits of my language mean the limits of my world’, observed the Austrian-British philosopher Ludwig Wittgenstein in his 1922 book Tractatus Logico-Philosophicus. To that point, we might ask: How does language relate to the world? And, more particularly, does language shape human experience — our shared reality and our individual reality? Built into these questions is another — about how language connects mind and world, and in doing so arbitrates our experience of what’s around us.

At a fundamental level, words and ideas describe the world through things (people, horses, pomegranates), properties (purple, octagon, scratchy surface), relations (the moon is 384,000 kilometres from Earth, the flu virus infects millions of people globally, the calamari sits on her mezze plate), and abstractions (thought, value, meaning, belief). That is, language serves to create and aggregate knowledge, understanding, and experience. That’s broadly how we know what we know about reality. But language — the sounds made as people talk and the inscriptions made as they write — is more than just, say, a meta-tool for informational exchanges.

That is, people issue commands, share jokes, welcome visitors, pledge allegiances, pose questions, admonish, lie, explain feelings, threaten, share stories, exaggerate, sing, and so on. Body language (a suddenly raised eyebrow, perhaps) and tone (gruffness or ecstasy, perhaps) add an important layer. An observation by Willard Van Orman Quine, the 20th-century American philosopher, that ‘Language is a social art’, rightly captures this function of language in our lives. There’s a complex harmonising between what we infer and internalize about purported reality and the various kinds of things, properties, and relations that actually exist.

Language thus shapes our thoughts and changes how we think. The relation between thought (mind) and language is synergistic — that is, the combined effect of language and thought is greater than their separate effects. In this manner, a Chickasaw speaker, a Tagalog speaker, an Urdu speaker, a Russian speaker, and an English speaker perceive reality differently — the fundamental building blocks of which are words. As the British philosopher J.L. Austin noted:
‘Going back into the history of a word . . . we come back pretty commonly to pictures or models of how things happen or are done’.
The tie, we might say, between language and perceptions (‘pictures’ and ‘models’) — both concrete and abstract — of how reality, in all its nuance and complexity, plays out.

Correspondingly, the many subtle differences across the world’s roughly 7,000 languages — across vocabularies and other linguistic elements — frame and constrain the way we experience the world. That is, languages differ enough to lead to singularly dissimilar views of reality. Word choice, meaning (both denotation and connotation), syntax, metaphors, grammar, gender, figures of speech, correlation and causality, intent and expectation, and context all influence our perception of the world.

It is thus understandable, amidst this mix of languages’ ingredients, for the German-American philosopher Rudolf Carnap, writing in the mid-20th century,  to have counseled, ‘Let us . . . be tolerant in permitting linguistic forms’. Whether despite or because of this mix, language directly influences culture, which in turn bears on how we talk and what we talk about. Cultural norms influence this process. Yet, notwithstanding the power of perceptions, there is a world independent of language — empirically knowable — even if external reality may not be independent of observation and measurement. Galaxies and microbes exist.

As one illustration where language intervenes upon reality, it has been pointed out that the Native American language Nootka has actions as its principal classification of words. Emphasis is on verbs that describe reality not as physical objects (where subjects act upon objects) but as transitory occurrences — like ‘a meal occurs’ — or longer lived — like ‘shelter occurs’. The result ‘delineates’ the Nootka notion of reality, distinguishing it from others’. It is in the context of this rather expansive view of language that Noam Chomsky, the American linguist, is surely right in saying:
‘A language is not just words. It’s a culture, a tradition, a unification of a community, a whole history that creates what a community is. It’s all embodied in a language’.
Extending this theme, of tying together usage and perspective, in some languages there is no front, back, left, and right; instead, there is north, south, east, or west of something — a geographical kind of view of place. Two languages with just such a sense of location and cardinal direction are Guugu Yimithirr, which is an aboriginal language from Australia, and Sambali, spoken in a province of the Philippines. Another example entails agency for an accidental action: ‘Sebastian, the lead lab scientist, dropped the test tube’ (agency pinpointed, as in English) versus ‘The test tube dropped’ (agency hidden, as in Japanese). These rich differences among languages have implications that ripple across society, affecting, for example, values, norms, law, economics, and political policy.

We might argue that the plasticity of language — and the consequential differences in how language, over time, shapes our understanding of reality — affects how the mind distinguishes between fact and fiction. This observation hints at the subjectivity associated with postmodernism in defining the truth and falsity of perceived reality — at least in a linguistic context. In this view, a subjectively conscious reality — differing among the native speakers of diverse languages — and the external world do not intersect, or if they do, it is but imperfectly.

As such, purported knowledge, understanding, and belief are likely to be contested among partisan cultures, each embracing its own conventions regarding how the mind might describe the world. Writing in the mid-20th century, Algerian-French philosopher Jacques Derrida pointed to this issue of defensively shielding one’s own language, saying:
‘No one gets angry at . . . someone who speaks a foreign language, but rather with someone who tampers with your own language’.
And yet, with Derrida’s cautionary words in mind, whose truth and falsity is it? And whose perspective is valid, or at least the most valid (that is, the least flawed)? Does it come down to simply a catalogue of rules for usage prescribed within each community speaking and writing a particular language? Perhaps J.L. Austin got it right in opining, ‘Sentences are not as such either true or false’.

Perhaps, too, it is as Humpty Dumpty famously declared in Lewis Carroll’s book, Through the Looking Glass, when he said:
 ‘When I use a word,  it means just what I choose it to mean, neither more nor less’.
That’s not too far off from the latest thinking about language, actually. Why so? It’s not only that different languages seem to lead to a different knowledge, understanding, and experience of reality within the mind. Rather, the effects of language seem more granular than that: Users within each of the world’s thousands of languages have different understanding of reality than even their fellow native speakers of those languages.

There are thus two levels of reality in the mind’s eye: one based on shared languages, such as NorwegianKhmer, and Maori. And one based on individuals within each language group whose personalised understanding and application of language uniquely and subtly differs from one person to another — quite apart from the differences in how, as individuals, we stamp our customs and norms on language.

Monday 13 November 2017

Hearts and Minds: The Mystery of Consciousness

By Mary Monro

Despite the best efforts of scientists and philosophers over the centuries, no mechanism has been discovered that indicates how consciousness emerges in the brain. Descartes famously thought the soul resided in the pineal gland - but that was mainly because he couldn't think of any other purpose for it (It actually produces melatonin and guides sleeping patterns). But, 400 years on, perhaps we still need to think again about where consciousness might reside.
In recent years there has been a surge of interest in the gut brain, with its hundred million neurons and its freight of microbes, that influences every aspect of our being including mood and memory. If the gut might now be considered a possible source of consciousness what about other candidates?

After all, “Primary consciousness arises when cognitive processes are accompanied by perceptual, sensory and emotional experience” as Fritjof Capra and Pier Luigi Luisi put it in their book The Systems View of Life: A Unifying Vision (2014).  Reflective or higher-order consciousness includes self-awareness and anticipation.

There is another intelligent, organising, feeling, planning, responsive, communicating organ inside us – a body-wide-web lining our blood vessels. Vascular endothelium cells (VE for short) line every vessel from the heart to the smallest capillary, reaching into every part of the body. Vascular endothelium is the interface between the blood and the tissues, deciding what goes where through a combination of electrical, kinetic, mechanical and chemical signalling.

Laid out, the VE in a human body would be the size of a rugby pitch yet it weighs only one kilogram. Far from being simply wallpaper, recent research has shown it to be a lead actor in the management of the body, including the brain. It is believed that each of the sixty trillion cells of the VE is unique, each one exquisitely adapted to meet the needs of its immediate environment, whether that is in the deeply oxygen deprived depths of the kidney or the highly oxygenated gas exchange surface of the lung. William Aird, in a scholarly paper in 2007, describes vascular endothelium as 'a powerful organising principle in health and disease'.

The blood-brain barrier (usually abbreviated to BBB) protects the brain from molecules and cells in the blood that might damage neural tissue. The vascular endothelium forms the interface but it was previously thought to be a passive sieve, controlled by neurons. The BBB has now been renamed the ‘neuro-vascular unit’ as it has become clear that neural cells, pericytes (that back the endothelial cells) and the vascular endothelial cells all actively take part in managing this critical barrier. It is not known which of them is in charge.

Other researchers have sought to apply the Turing Test to the VE in the brain – the Turing Test being an evaluation of whether an information processing system is capable of intelligent, autonomous thought. Christopher Moore and Rosa Cao, argue that blood is drawn to particular areas of the brain by the VE, in advance of metabolic demand, where it stimulates and modulates neuronal function. So the brain is responder rather than activator. Who is doing the thinking? Is the body-wide-web (including the heart and its assistant the blood) gathering information from the body and the external environment to tell the brain what to do? How does it make decisions? What does this imply for consciousness?

In fact, long ago, Aristotle asserted that the vascular architecture in the embryo functions as a frame or model that shapes the body structure of the growing organism. Recent research bears this out, with the VE instructing and regulating organ differentiation and tissue remodelling, from the embryo to post-natal life.  The VE cells form before there is a heart and it is fluid flow that drives endothelial stem cells to trigger the development of the heart tube, vessels and blood cells. There is no brain, only a neural tube, at this stage.

Recent research has shown that blood vessels can direct the development of nerves or vice versa or they can each develop independently. So, embryologically, there is a case for saying that the VE is a decision making executive.

All this recalls a founding principle of osteopathy – which is that ‘the rule of the artery is supreme’.  This is a poetic, 19th century way of saying that disturbance to blood flow is at the root of disease. In his autobiography, published in 1908, Andrew Still remarks: ‘in the year 1874 I proclaimed that a disturbed artery marked the beginning to an hour and a minute when disease began to sow its seeds of destruction in the human body’.

Now, almost a century and a half on, we find that ‘endothelial activity is crucial to many if not all disease processes’, as K. S. Ramcharan put it in a recent paper entitled ‘The Endotheliome: A New Concept in Vascular Biology’ (published in Thrombosis Research in 2011). All this illustrates the importance of this seemingly humble tissue, upon whose health our mental and physical wellbeing depends. And if this structure acts consciously, then perhaps we should consider the possibility that all living cells act consciously.



*Mary Monro Bsc (Hons) Ost, MSc Paed Ost, FSCCO is an Osteopath, based in Bath, United Kingdom.

Monday 24 July 2017

Identity: From Theseus's Paradox to the Singularity

Posted by Keith Tidman

A "replica" of an ancient Greek merchant ship based on the remains of a ship that wrecked about 2,500 years ago.  With acknowledgements to Donald Hart Keith.
As the legend goes, Theseus was an imposing Greek hero, who consolidated power and became the mythical king of Athens. Along the way, he awed everyone by leading victorious military campaigns. The Athenians honoured Theseus by displaying his ship in the Athenian harbour. As the decades rolled by, parts of the ship rotted. To preserve the memorial, each time a plank decayed, the Athenians replaced it with a new plank of the same kind of wood. First one plank, then several, then many, then all.

As parts of the ship were replaced, at what point was it no longer the ‘ship of Theseus’? Or did the ship retain its unique (undiminished) identity the entire time, no matter how many planks were replaced? Do the answers to those two questions change if the old planks, which had been warehoused rather than disposed of, were later reassembled into the ship? Which, then, is the legendary ‘ship of Theseus’, deserving of reverence — the ship whose planks had been replaced over the years, or the ship reassembled from the stored rotten planks, or neither? The Greek biographer and philosopher Plutarch elaborated on the paradox in the first century in 'Life of Theseus'.

At the core of these questions about a mythical ship is the matter of ‘identity’. Such as how to define ‘an object’; whether an object is limited to the sum of people’s experience of it; whether an object can in some manner stay the same, regardless of the (macro or micro) changes it undergoes; whether the same rules regarding identity apply to all objects, or if there are exceptions; whether gradual and emergent, rather than immediate, change makes a difference in identity; and so forth.

The seventeenth-century English poilitical philosopher, Thomas Hobbes, weighed in on the conundrum, asking, ‘Which of the two existing ships is numerically one and the same ship as Theseus’s original ship?’ He went on to offer this take on the matter:
‘If some part of the first material has been removed or another part has been added, that ship will be another being, or another body. For, there cannot be a body “the same in number” whose parts are not all the same, because all a body’s parts, taken collectively, are the same as the whole.’
The discussion is not, of course, confined to Theseus’s ship. All physical objects are subject to change over time: suns (stars), trees, houses, cats, rugs, hammers, engines, DNA, the Andromeda galaxy, monuments, icebergs, oceans. As do differently categorised entities, such as societies, institutions, and organizations. And people’s bodies, which change with age of course — but more particularly, whose cells get replaced, in their entirety, roughly every seven years throughout one’s life. Yet, we observe that amidst such change — even radical or wholesale change — the names of things typically don’t change; we don’t start calling them something else. (Hobbes is still Hobbes seven years later, despite cellular replacement.)

The examples abound, as do the issues of identity. It was what led the ancient Greek philosopher Heraclitus to famously question whether, in light of continuous change, one can ‘step into the same river twice’—answering that it’s ‘not the same river and he’s not the same man’. And it’s what led Hobbes, in the case of the human body, to conveniently switch from the ‘same parts’ principle he had applied to Theseus’s ship, saying regarding people, ‘because of the unbroken nature of the flux by which matter decays and is replaced, he is always the same man’. (Or woman. Or child.) By extension of this principle, objects like the sun, though changing — emitting energy through nuclear fusion and undergoing cycles — have what might be called a core ‘persistence’, even as aspects of their form change.
‘If the same substance which thinks be changed,
it can be the same person, or remaining
the same, it can be a different person? — John Locke
But people, especially, are self-evidently more than just bodies. They’re also identified by their minds — knowledge, memories, creative instincts, intentions, wants, likes and dislikes, sense of self, sense of others, sense of time, dreams, curiosity, perceptions, imagination, spirituality, hopes, acquisitiveness, relationships, values, and all the rest. This aspect to ‘personal identity’, which John Locke encapsulates under the label ‘consciousness’ (self) and which undergoes continuous change, underpins the identity of a person, even over time — what has been referred to as ‘diachronic’ personal identity. In contrast, the body and mind, at any single moment in time, has been referred to as ‘synchronic’ personal identity. We remain aware of both states — continuous change and single moments — in turns (that is, the mind rapidly switching back and forth, analogous to what happens while supposedly 'multitasking'), depending on the circumstance.

The philosophical context surrounding personal identity — what’s essential and sufficient for personhood and identity — relates to today’s several variants of the so-called ‘singularity’, spurring modern-day paradoxes and thought experiments. For example, the intervention of humans to spur biological evolution — through neuroscience and artificial intelligence — beyond current physical and cognitive limitations is one way to express the ‘singularity’. One might choose to replace organs and other parts of the body — the way the planks of Theseus’s ship were replaced — with non-biological components and to install brain enhancements that make heightened intelligence (even what’s been dubbed ultraintelligence) possible. This unfolding may be continuous, undergoing a so-called phase transition.

The futurologist, Ray Kurzweil, has observed, ‘We're going to become increasingly non-biological’ — attaining a tipping point ‘where the non-biological part dominates and the biological part is not important any more’. The process entails the (re)engineering of descendants, where each milestone of change stretches the natural features of human biology. It’s where the identity conundrum is revisited, with an affirmative nod to the belief that mind and body lend themselves to major enhancement. Since such a process would occur gradually and continuously, rather than just in one fell swoop (momentary), it would fall under the rubric of ‘diachronic’ change. There’s persistence, according to which personhood — the same person — remains despite the incremental change.

In that same manner, some blend of neuroscience, artificial intelligence, heuristics, the biological sciences, and transformative, leading-edge technology, with influences from disciplines like philosophy and the social sciences, may allow a future generation to ‘upload the mind’ — scanning and mapping the mind’s salient features — from a person to another substrate. That other substrate may be biological or a many-orders-of-magnitude-more-powerful (such as quantum) computer. The uploaded mind — ‘whole-brain emulation’ — may preserve, indistinguishably, the consciousness and personal identity of the person from whom the mind came. ‘Captured’, in this term’s most benign sense, from the activities of the brain’s tens of billions of neurons and trillions of synapses.

‘Even in a different body, you’d still be you
if you had the same beliefs, the same worldview,
and the same memories.’ — Daniel Dennett
If the process can happen once, it can happen multiple times, for the same person. In that case, reflecting back on Theseus’s ship and notions of personal identity, which intuitively is the real person? Just the original? Just the first upload? The original and the first upload? The original and all the uploads? None of the uploads? How would ‘obsolescence’ fit in, or not fit in? The terms ‘person’ and ‘identity’ will certainly need to be revised, beyond the definitions already raised by philosophers through history, to reflect the new realities presented to us by rapid invention and reinvention.

Concomitantly, many issues will bubble to the surface regarding social, ethical, regulatory, legal, spiritual, and other considerations in a world of emulated (duplicated) personhood. Such as: what might be the new ethical universe that society must make sense of, and what may be the (ever-shifting) constraints; whether the original person and emulated person could claim equal rights; whether any one person (the original or emulation) could choose to die at some point; what changes society might confront, such as inequities in opportunity and shifting centers of power; what institutions might be necessary to settle the questions and manage the process in order to minimise disruption; and so forth, all the while venturing increasingly into a curiously untested zone.

The possibilities are thorny, as well as hard to anticipate in their entirety; many broad contours are apparent, with specificity to emerge at its own pace. The possibilities will become increasingly apparent as new capabilities arise (building on one another) and as society is therefore obliged, by the press of circumstances, to weigh the what and how-to — as well as the ‘ought’, of course. That qualified level of predictive certainty is not unexpected, after all: given sluggish change in the Medieval Period, our twelfth-century forebears, for example, had no problem anticipating what thirteenth-century life might offer. At that time in history, social change was more in line with the slow, plank-by-plank changes to Theseus’s ship. Today, the new dynamic of what one might call precocious change — combined with increasingly successful, productive, leveraged alliances among the various disciplines — makes gazing into the twenty-second century an unprecedentedly challenging briar patch.

New paradoxes surrounding humanity in the context of change, and thus of identity (who and what I am and will become), must certainly arise. At the very least, amidst startling, transformative self-reinvention, the question of what is the bedrock of personal identity will be paramount.

Monday 9 January 2017

Is Consciousness Bound Inextricably by the Brain?

From Qualia to Comprehension

Posted by Keith Tidman
According to the contemporary American philosopher, Daniel Dennett, consciousness is the ‘last surviving mystery’ humankind faces.
Well, that may be overstating human achievements, but at the very least, consciousness ranks among the most consequential mysteries. With its importance acknowledged, does the genesis of conscious experience rest solely in the brain? That is, should investigations of consciousness adhere to the simplest, most direct explanation, where neurophysiological activity accounts for this core feature of our being?

Consciousness is a fundamental property of life—an empirical connection to the phenomenal. Conscious states entail a wide range of (mechanistic) experiences, such as wakefulness, cognition, awareness of self and others, sentience, imagination, presence in time and space, perception, emotions, focused attention, information processing, vision of what can be, self-optimisation, memories, opinions—and much more. An element of consciousness is its ability to orchestrate how these intrinsic states of consciousness express themselves.

None of these states, however, requires the presence of a mysterious dynamic—a ‘mind’ operating dualistically separate from the neuronal, synaptic activity of the brain. In that vein, ‘Consciousness is real and irreducible’, as Dennett's contempoary, John Searle, observed in pointing out the seat of consciousness being the brain; ‘you can’t get rid of it’. Accordingly, Cartesian dualism—the mind-body distinction—has long since been displaced by today’s neuroscience, physics, mathematical descriptions, and philosophy.

Of significance, here, is that the list of conscious experiences in the neurophysiology of the brain includes colour awareness (‘blueness’ of eyes), pain from illness, happiness in children’s company, sight of northern lights, pleasure in another’s touch, hunger before a meal, smell of a petunia, sound of a violin concerto, taste of a macaroon, and myriad others. These sensations fall into a category dubbed qualia, their being the subjective, qualitative, ‘introspective’ properties of experience.

Qualia might well constitute, in the words of the Australian cognitive scientist, David Chalmers, the ‘hard problem’ in understanding consciousness; but, I would suggest, they’re not in any manner the ‘insoluble problem’. Qualia indeed pose an enigma for consciousness, but a tractable one. The reality of these experiences—what’s going on, where and how—has not yet yielded to research; however, it’s early. Qualia are likely—with time, new technologies, fresh methodologies, innovative paradigms—to also be traced back to brain activity.

In other words, these experiences are not just correlated to the neurophysiology of the brain serving as a substrate for conscious processes, they are inextricably linked to and caused by brain activity. Or, put another way, neurophysiological activity doesn’t merely represent consciousness, it is consciousness—both necessary and sufficient.

Consciousness is not unique to humans, of course. There’s a hierarchy to consciousness, tagged approximately to the biological sophistication of a species. How aware, sentient, deliberative, coherent, and complexly arranged that any one species might be, consciousness varies down to the simplest organisms. The cutoff point of consciousness, if any, is debatable. Also, if aliens of radically different intelligences and physiologies, including different brain substrates, are going about their lives in solar systems scattered throughout the universe, they likewise share properties of consciousness.

This universal presence of consciousness is different than the ‘strong’ version of panpsychism, which assigns consciousness (‘mind’) to everything—from stars to rocks to atoms. Although some philosophers through history have subscribed to this notion, there is nothing empirical (measurable) to support it—future investigation notwithstanding, of course. A takeaway from the broader discussion is that the distributed presence of conscious experience precludes any one species, human or alien, from staking its claim to ‘exceptionalism’.

Consciousness, while universal, isn’t unbounded. That said, consciousness might prove roughly analogous to physics’ dark matter, dark energy, force fields, and fundamental particles. It’s possible that the consciousness of intelligent species (with higher-order cognition) is ‘entangled’—that is, one person’s consciousness instantaneously influences that of others across space without regard to distance and time. In that sense, one person’s conscious state may not end where someone else’s begins; instead, consciousness is an integrated, universal grid.

All that said, the universe doesn’t seem to pulse as a single conscious entity or ‘living organism’. At least, it doesn't to modern physicists. On a fundamental and necessary level, however, the presence of consciousness gives the universe meaning—it provides reasons for an extraordinarily complex universe like ours to exist, allowing for what ‘awareness’ brings to the presence of intelligent, sentient, reflective species... like humans.

Yet might not hyper-capable machines too eventually attain consciousness? Powerful artificial intelligence might endow machines with the analog of ‘whole-brain’ capabilities, and thus consciousness. With time and breakthroughs, such machines might enter reality—though not posing the ‘existential threat’ some philosophers and scientists have publicly articulated. Such machines might well achieve supreme complexity—in awareness, cognition, ideation, sentience, imagination, critical thinking, volition, self-optimisation, for example—translatable to proximate ‘personhood’, exhibiting proximate consciousness.

Among what remains of the deep mysteries is this task of achiveing a better grasp of the relationship between brain properties and phenomenal properties. The promise is that in the process of developing a better understanding of consciousness, humanity will be provided with a vital key for unlocking what makes us us.