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Causality

Causality (also referred to as causation, or cause and effect) is influence by which one event, process, state or object (a cause) contributes to the production of another event, process, state or object (an effect) where the cause is partly responsible for the effect, and the effect is partly dependent on the cause. In general, a process has many causes, which are also said to be causal factors for it, and all lie in its past. An effect can in turn be a cause of, or causal factor for, many other effects, which all lie in its future. Some writers have held that causality is metaphysically prior to notions of time and space” (Wikipedia, retrieved August 2021).

What do we really see when we look up to the stars at night? What has caused this “jeweled canopy” to appear so beautiful to our eyes and telescopes, as though its sole purpose was to inspire awe? References to a design underlying nature are found throughout religious scriptures. For example, from Al-Rhaman The Merciful, in the Quran; “The sun and the moon move according to a fixed reckoning; the stars and the trees bend in prostration. He raised the heavens and set up the measure, so that you should not transgress the measure.” (The Quran, Al-Rahman The Merciful, chapter 55, verses 5 through 8).

Astrophysicist Nidhal Guesshoum, an observant Muslim, believes that there is an underlying design to our universe, referencing colleague Paul Davies‘ expression “cosmic blueprint” :

“Was there any underlying principle that produced this cosmic blueprint?” We can always take the explanation one step deeper. I also believe there is some meaning to existence and to this universe. It’s not an accident that intelligence, consciousness, and life exist. But can we ever determine what the purpose really is? I’m not sure. It may be a question that’s way beyond us” (2010, p. 224)

In his book, “Einstein’s Unfinished Revolution: The Search for What Lies Beyond the Quantum” (2019), theoretical physicist Lee Smolin begins building a case for unifying relativity and quantum theory. He extends the notion of mathematician Gottfried Leibniz that the universe is a unified, background-independent whole, comprised of different “causal events”. Smolin proposes that time is fundamental in this relational model and space is an emergent appearance that reveals “causal views” which are formed by its “causal structure” (2019, p. 256). The quantum phenomenon of non-locality, questioned by Einstein as “spooky action at a distance”, is now similarly an emergent phenomenon, and this approach explains how entangled particles can exist separately across the various, sometimes vast, causal views of our spacetime.

In a paper titled “The Quantum Mechanics of the Present” (2021), Smolin and colleague Clelia Verde go further by proposing a new ontology for looking at time itself. “Causality is represented by the present moment coordinates which build the current previous moments on the previous ones. This is the true action of dynamics in quantum physics” (2021, p. 10). At what point do a system’s attributes change from behaving quantum-mechanically to behaving classically, or vice versa? Smolin and Verde posit that what differentiates elements within a system is their “definiteness”, their concrescence. Broadly, events that exist in the past, relative to the observer, are no longer indefinite and probabilistic, but definite, concrete, and measurable. Whereas future events, right up to their cresting in the present moment, are indefinite and uncertain, and therefore quantum-mechanical in nature.

Similar to how an inertial observer may feel no motion, an observer in the present sits stationary while the future rushes towards them, as “isn’t that how it often feels?” (2021, p. 11). Smolin and Verde wonder what would it be like if we didn’t have clocks at all, and the present was “always NOW”. The times of probabilistic future events would thus always be counting down to the present moment, when they would happen and emerge from indefinite into definite.

Does such a perspective support a teleology, a design, to nature and the universe? Theologian and author C. S. Lewis asks, could it be “God himself, alive, pulling at the other end of the cord, perhaps approaching an infinite speed…?” (1947, p. 114).

Beyond religious or metaphysical speculation, and of our being mere observers, what role do causal agents play under such a regime? Are we not each a causal agent in our various contexts? Does this view infer an even greater potential to letting go of the past, and instead acting in the present to influence the future?

A Sheaf of Golden Rules from Twelve Religions | Judaism:
“Thou shalt love thy neighbor as thyself” (1946, p. 309).

Guesshoum, N. (2010), in Paulson, S. (Ed.), Atoms and Eden: Conversations on Religion and Science (pp. 215-228). New York, United States: Oxford University Press

Hoople, R. E., Piper, R. F., & Tolley, W. P. (Eds.), (1946), A Sheaf of Golden Rules from Twelve Religions, in Preface to Philosophy: Book of Readings (pp. 309-310). New York, United States: The Macmillan Company (1952 ed.)

Lewis, C. S. (1947) Miracles. London, United Kingdom: Geoffrey Bles

The Quran (2009) translated by Maulana Wahiduddin Khan and Farida Khanam. Noida, India: Goodword Books (2015 ed.)

Smolin, L. & Verde, C. (April 2021) The Quantum Mechanics of the Present (pp. 1-14). DOI: arxiv.org:2104.09945v1 [PDF document] retrieved August 2021 from https://arxiv.org/pdf/2104.09945.pdf

Smolin, L. (2019) Einstein’s Unfinished Revolution: The Search for What Lies Beyond the Quantum. Toronto, Canada: Alfred A. Knopf – Penguin Random House

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Eternity

Catholic theologian Hans Küng explores several perspectives on the notion of eternal life in his book, “Eternal Life? Life After Death as a Medical, Philosophical, and Theological Problem” (1984). In one, Küng describes eternal life not continuing in a linear temporal fashion as either blissful or suffering damnation, but rather as states of mind, and crossing into or out of them as potentially radical transformation into new states of being in the world. However, he cautions against the absolutizing of life in the here and now; “the craving for a quick seizure and a rapid living out of life’s opportunities… the consequence of which is an ideology of thoughtless enjoyment of life, consumerism as the ideology of unrestrained availability of consumer goods” (1984, p. 189).

Küng summons philosopher Immanuel Kant to elucidate the image of an eternal life through spiritual immortality as a precondition for ethical behaviour, where “without a balance between virtue and destiny the whole moral order of the world would be called into question” (1984, p. 75). This theme of a perpetuating soul arises in all three Abrahamic traditions as well as in Hinduism and Jainism, and, according to author Alan Wallace, in Tibetan Buddhism “your psyche emerged sometime while you were in your mother’s womb. Its continuing to evolve and eventually its going to implode back into the substrate, carry on as a disembodied continuum of consciousness and then reincarnate” (2010, p. 155).

Does consciousness reside in the physical self? Can there be scientific truth to notions of a spiritual hereafter or to eastern doctrines of rebirth? What happens to the electrical and chemical activity which forms the state-space of our conscious selves and all its corresponding information when we die? Does it evaporate and dissipate, or transmigrate?

Science philosopher Karl Popper sees upsides of epistemological juxtaposition in that purely metaphysical ideas, and therefore philosophical ideas, have “furthered the advance of science throughout its history” (1935, p. 16). Theoretical physicist Werner Heisenberg, pioneer in the study of quantum mechanics, states we need to instead think more subtly about how we cleave the universe into its subjective and objective parts, as Küng quotes him, “In the astronomical universe, the earth is merely a tiny spec of dust in one of the innumerable galaxies, but, for us, it is the center of the universe” (1984, p. 209).

Physicist Lee Smolin, in describing David Bohm’s Pilot wave theory, sees the quantum mechanical wave function as sprouting “multiple branches that flow to where their particles or configurations are not” despite the particle only being able to follow one of them. The potential of the other empty branches can be ignored: “We are real only once and live that life on that one occupied branch. We need care about and be responsible for only what the real version of each of us does” (2019, p. 127). This sentiment is echoed by Küng in another view of eternal life as dissolving oneself into a unity where “what matters is to work together with others who are living with us – out of hope for an eternal life and in commitment for a better human world – for a practical life at the present time” (1984, p. 222).

We may not have different lives in some sense of the word, but do we have an eternal life nonetheless? Whether through the reverberations of our actions, be they good or bad, in this lifetime, or through the wave function itself, carrying some state of us forward, even after we die?

A Sheaf of Golden Rules from Twelve Religions | Jainism:
“Indifferent to worldly objects, a man should wander about treating all creatures in the world as he himself would be treated” (1946, p. 309).

Heisenberg, W. (1973), “Naturwissenschaftliche und religiose Wahrheit”, in Küng, H. (1984) Eternal Life? Life After Death as a Medical, Philosophical, and Theological Problem, translated by Edward Quinn. Garden City, United States: Doubleday & Company Inc.

Hoople, R. E., Piper, R. F., & Tolley, W. P. (Eds.), (1946), A Sheaf of Golden Rules from Twelve Religions, in Preface to Philosophy: Book of Readings (pp. 309-310). New York, United States: The Macmillan Company (1952 ed.)

Küng, H. (1984) Eternal Life? Life After Death as a Medical, Philosophical, and Theological Problem, translated by Edward Quinn. Garden City, United States: Doubleday & Company Inc.

Popper, K. (1935) The Logic of Scientific Discovery. London, United Kingdom: Routledge Classics (2002 ed.)

Smolin, L. (2019) Einstein’s Unfinished Revolution: The Search for What Lies Beyond the Quantum. Toronto, Canada: Alfred A. Knopf – Penguin Random House

Wallace, A. (2010), in Paulson, S. (Ed.), Atoms and Eden: Conversations on Religion and Science (pp. 145-157). New York, United States: Oxford University Press

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Enfoldment

Dr. Carl Jung, proponent of the concept of synchronicity which hints at some deeper, interconnected realm, recognized that much of what went on in the human subconscious was invisible to any form of direct observation; not only by outside observers, but often also invisible to the subjects themselves. Nowadays, imaging technology has changed some of this, and is opening all kinds of interesting scientific research doors.

Jung’s study of patients’ dream states demonstrated that a whole other world was perceived by them under certain conditions. It could be said that these dreams were buried or enfolded within their subconscious minds. Jung encouraged his patients to illustrate their visions through art and narrative. Often, strikingly common themes and motifs would emerge from such recollections, despite there being any rational, earthly connection to account for them. He called these recurrent phenomena archetypes and they could, for example, be roles assumed by the dreamer or actors within the dream such as that of a hero or heroine, or objects, such as totems or icons, which themselves became symbols for something metaphysically salient. When studied in this light, recurrent phenomena within stories from dreams become connecting threads of similarity across both time and space. These raise the potential for some deeper interconnecting fabric; invisible, but underlying and intrinsically woven with that which we know as reality.

Jung, despite the acclaim with which he and his work are now held, was perhaps regarded as being on the fringe of science by many of his contemporaries. Another favourite big thinker is David Bohm, who was similarly on the fringe during his time, and whom I will be continuing to write more about in future posts.

Dr. David Bohm was a theoretical physicist who became disillusioned and was eventually exiled as a result of McCarthyism during the U.S. postwar era following his work on the Manhattan project. Living abroad, he delved deeply into quantum mechanics; the study of the smallest particles and their fascinating behaviour. This began as an effort to reconcile some of the questions he felt had not been adequately addressed by his peers and colleagues, namely on the topic of the wave-particle duality. Particularly, how tiny photons, the constituents of light, behave as though they are particles under some conditions, while also behaving as though they are waves under other conditions. This apparent conundrum continues to lie at the heart of much of particle physics to this day. Bohm wanted to reconcile commonly held views by offering a new interpretation.

Bohm worked on developing a theory of an implicate, or enfolded order. Particles, and how we perceive them, may be regarded as an unfolding (an ongoing process), or an unfoldment and their attributes in the unfolded state are indicative of activity that is, or has taken place, on some deeper, enfolded level. To illustrate this notion in the simplest of fashions, he described folding a piece of paper up, taking a pair of scissors and making some arbitrary cuts in it, and then unfolding it to reveal the pattern created by the cuts. This revealed pattern is said to be enfolded; bound up, or implied within the higher implicate order of the folded-up piece of paper, and despite its invisibility to us whilst in the folded-up state, the pattern is nonetheless there. Thus, in reality, what we perceive through our various sense gates, and oftentimes instruments, is merely the explicate order (from ‘to explicate’, ‘explain’, reveal, unravel, etc.) or unfoldment that has derived from the invisible, enfolded, implicate one.

Bohm was not satisfied with the prevailing reductionist scientific approach to further develop his theory of the implicate order, and instead sought to apply his insights on a more tangible, macroscopic level. Rather than study individual particles, he wondered instead about the very nature of perception, consciousness, and reality itself. From this, he went on to develop a format of public dialogue which explored new approaches to communication in order to make the best use of both it and thought, particularly within interpersonal and group contexts. This was an effort aimed at helping lay the groundwork needed to address some of humankind’s most pressing challenges, at whose roots are often issues of incoherent thought and communication.

Interestingly, over just the past few years, David Bohm’s insights in the study of particle physics are seeing a resurgence of attention within the recent work of several of the world’s top physicists, including Lee Smolin, who references him in his book, Einstein’s Unfinished Revolution. Perhaps a renewal of interest in Bohm’s approaches overall will herald a more thorough re-examination and re-evaluation of this important thinker.

Smolin, L. (2019) Einstein’s Unfinished Revolution: The Search for What Lies Beyond the Quantum. Toronto, Canada: Alfred A. Knopf – Penguin Random House