I would really appreciate constructive critical comments from anyone who is interested. The book is intended primarily for academic philosophers but should also mostly be comprehensible to non-specialists who enjoy my blog.
Each chapter of the book is mostly freestanding (most are based on previously published articles), so if you're interested, you can dive straight to the part that interests you instead of feeling like you need to read from the beginning.
Anyone who provides valuable comments will of course be thanked in the acknowledgements. Anyone doughty enough to provide comments on the whole book will receive a free copy of the published book, with my thanks.
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Introductory Chapter
In Praise of Weirdness
The weird sisters, hand in hand,
Posters of the sea and land,
Thus do go about, about:
Thrice to thine and thrice to mine
And thrice again, to make up nine.
Peace! the charm’s wound up
(Macbeth,
Act I, scene iii)
Weird often saveth
The undoomed hero if doughty his
valor!
(Beowulf,
X.14-15, trans. L. Hall)
The word “weird” reaches deep back
into old English, originally as a noun for fate or magic, later as an adjective
for the uncanny or peculiar. By the
1980s, it had fruited as the choicest middle-school insult against unstylish kids
like me who spent their free time playing with figurines of wizards and listening
to obscure science fiction radio shows.
If the “normal” is the conventional, ordinary, predictable, and readily
understood, the weird is what defies that.
The world is weird. It wears mismatched thrift-shop clothes,
births wizards and monsters, and all of the old science fiction radio shows are
true. Our changeable, culturally
specific sense of normality is no rigorous index of reality.
One of the
weirdest things about Earth is that certain complex bags of mostly water can
pause to reflect on the most fundamental questions there are. We can philosophize to the limits of our
comprehension and peer into the fog beyond those limits. We can think about the foundations of the
foundations of the foundations, even with no clear method and no great hope of
an answer. In this respect, we vastly
out-geek bluebirds and kangaroos.
1.
What I Will Argue in This Book.
Consider three huge
questions: What is the fundamental structure of the cosmos? How does human consciousness fit into
it? What should we value? What I will argue in this book – with
emphasis on the first two questions, but also sometimes drawing implications
for the third – is (1.) the answers are currently beyond our capacity to know,
and (2.) we do nonetheless know at least this: Whatever the truth is, it’s
weird. Careful reflection will reveal
all of the viable theories on these grand topics to be both bizarre and
dubious. In Chapter 3 (“Universal
Bizarreness and Universal Dubiety”), I will call this the Universal Bizarreness
thesis and the Universal Dubiety thesis.
Something that seems almost too crazy to believe must be true, but we
can’t resolve which of the various crazy-seeming options is ultimately
correct. If you’ve ever wondered why
every wide-ranging, foundations-minded philosopher in the history of Earth has
held bizarre metaphysical or cosmological views (each philosopher holding,
seemingly, a different set of bizarre views), Chapter 3 offers an explanation.
I will argue that
given our weak epistemic position, our best big-picture cosmology and our best
theories of consciousness are tentative, modish, and strange.
Strange: As I will
argue, every approach to cosmology and consciousness has bizarre implications
that run strikingly contrary to mainstream “common sense”.
Tentative: As I
will also argue, epistemic caution is warranted, partly because theories on these topics run so strikingly contrary to
common sense and also partly because they test the limits of scientific inquiry. Indeed, dubious assumptions about the
fundamental structure of mind and world frame or undergird our understanding of
the nature and value of scientific inquiry, as I discuss in Chapters 4 (“1%
Skepticism”), 5 (“Kant Meets Cyberpunk”), and 7 (“Experimental Evidence for the
Existence of an External World”).
Modish: On a philosopher’s
time scale – where a few decades ago is “recent” and a few decades hence is
“soon” – we live in a time of change, with cosmological theories and theories
of consciousness rising and receding based mainly on broad promise and what
captures researchers’ imaginations. We ought
not trust that the current range of mainstream academic theories will closely
resemble the range in a hundred years, much less the actual truth.
Even the common
garden snail defies us (Chapter 9, “Is There Something It’s Like to Be a Garden
Snail?”). Does it have experiences? If so, how much and of what kind? In general, how sparse or abundant is
consciousness in the universe? Is
consciousness – feelings and experiences of at least the simplest, least
reflective kind – cheap and common, maybe even ubiquitous? Or is consciousness rare and expensive,
requiring very specific conditions in the most sophisticated organisms? Our best scientific and philosophical
theories conflict sharply on these questions, spanning a huge range of possible
answers, with no foreseeable resolution.
The question of
consciousness in near-future computers or robots similarly defies resolution,
but with arguably more troubling consequences: If constructions of ours might
someday possess humanlike emotions and experiences, that creates moral
quandaries and puzzle cases for which our ethical intuitions and theories are
unprepared. In a century, the best
ethical theories of 2022 might seem as quaint and inadequate as medieval
physics applied to relativistic rocketships (Chapter 10, “The Moral Status of
Future Artificial Intelligence: Doubts and a Dilemma”).
2.
Varieties of Cosmological Weirdness.
To establish that
the world is cosmologically bizarre, maybe all that is needed is relativity
theory and quantum mechanics.
According to
relativity theory, if your twin accelerates away from you at nearly light speed
then returns, much less time will have passed for the traveler than for you who
stayed here on Earth – the so-called Twin Paradox. According to quantum mechanics, if you
observe the decay of a uranium atom, there’s also an equally real, equally
existing version of you in another “world” who shares your past but who
observed the atom not to have decayed. Or
maybe your act of observation caused the decay, or maybe some other strange
thing is true, depending on your favored interpretation of quantum mechanics. Oddly enough, the many-worlds hypothesis
appears to be the most straightforward interpretation of quantum mechanics.[1] If we accept that view, then the cosmos
contains a myriad of slightly different, equally real worlds each containing
different versions of you and your friends and everything you know, each splitting
off from a common history.
The cosmos might
also be infinite: There is no evidence of a spatial boundary to it, no positive
reason to think there is a spatial limit, and topologically, at the largest
observable scales, it appears to be flat rather than curving back around upon
itself.[2] The tiny little 93-billion-light-year
diameter speck that we can observe might be the merest dot in a literally
endless expanse. If so, and if a few
other plausible-seeming assumptions hold (such as that we occupy a
not-too-exceptional region of cosmos, that our emergence was not
infinitesimally improbable, and that across infinite space every finitely
probable event is instantiated somewhere) then somewhere out there, presumably
far, far beyond the borders of what we can see, are myriad entities
molecule-for-molecule identical to us down to a tiny fraction of a
Planck-length – duplicates of you, your friends, and all Earth, living out
every finitely probable future. Furthermore,
if your actions here can have effects that ripple unendingly through the
cosmos, you can even wave your hand in such a way that a future duplicate of
you will have the thought “I’ve been waved at by a past duplicate of myself!” partly
as a result of that hand wave.[3] (Here I pause in my writing to wave out the
window at future duplicates of myself.)
I won’t dwell on
those particular cosmological weirdnesses, since they are familiar to academic
readers and well-handled elsewhere (for example, in recent books by Sean
Carroll, Brian Greene, and Max Tegmark).[4] However, some equally fundamental cosmological
issues are typically addressed by philosophers rather than scientific
cosmologists.
One is the possibility
that the cosmos is nowhere near as large as we ordinarily assume – perhaps just
you and your immediate environment (Chapter 4) or perhaps even just your own
mind and nothing else (Chapter 7).
Although these possibilities might not be likely, they are worth considering seriously, to assess how confident we
ought to be in their falsity and on what grounds. I will argue that it’s reasonable not to entirely dismiss such skeptical
possibilities.
Another is the
possibility that we live inside a simulated reality or a pocket universe,
embedded in a much larger structure about which we know virtually nothing
(Chapters 4 and 5). Still another is
that our experience of three-dimensional spatiality is a product of our own
minds that doesn’t reflect the underlying structure of reality (Chapter 5) or
maps only loosely onto it (Chapter 8 “The Loose Friendship of Visual Experience
and Reality”).
Still another set
of questions concerns the relationship of mind to cosmos. Is conscious experience abundant in the
universe, or does it require the delicate coordination of rare events (Chapter
9)? Is consciousness purely a matter of having
the right physical structure, or might it require something nonphysical
(Chapter 3)? Under what conditions might
a group of organisms give rise to group-level consciousness (Chapter 2, “If
Materialism Is True, the United States Is Probably Conscious”)? What would it take to build a conscious
machine, if that is possible at all – and what ought we to do if we don’t know
whether we have succeeded (Chapter 10)? In
each of our heads are about as many neurons as stars in the galaxy, and each
neuron is arguably more structurally complex than any star system that does not
contain life. There is as much
complexity and mystery inside as out.
I will argue that
in these matters, neither common sense, nor early 21st-century empirical
science, nor armchair philosophical theorizing is entirely trustworthy. The rational response is to distribute your
credence across a wide range of bizarre options.
3.
Philosophy That Closes Versus Philosophy That Opens.
You are reading a
philosophy book – voluntarily, let’s suppose. Why? What do you like about philosophy? Some people like philosophy because they
believe it reveals profound, fundamental truths about the one way the world is
and the one right manner to live. Others
like the beauty of grand philosophical systems.
Still others like the clever back-and-forth of philosophical
combat. What I like most is none of
these. I love philosophy best when it
opens my mind – when it reveals ways the world could be, possible approaches to
life, lenses through which I might see and value things around me, which I might
not otherwise have considered.
Philosophy can aim
to open or to close. Suppose you enter
Philosophical Topic X imagining three viable possibilities, A, B, and C. The philosophy of closing aims to reduce the
three to one. It aims to convince you
that possibility A is correct and the others wrong. If it succeeds, you know the truth about
Topic X: A is the answer! In contrast, the
philosophy of opening aims to add new possibilities to the mix – possibilities
that you maybe hadn’t considered before or had considered but too quickly dismissed. Instead of reducing three to one, three grows
to maybe five, with new possibilities D and E.
We can learn by addition as well as subtraction. We can learn that the range of viable possibilities
is broader than we had assumed.
For me, the
greatest philosophical thrill is realizing that something I’d long taken for
granted might not be true, that some “obvious” apparent truth is in fact
doubtable – not just abstractly and hypothetically doubtable, but really,
seriously, in-my-gut doubtable. The ground
shifts beneath me. Where I’d thought
there would be floor, there is instead open space I hadn’t previously seen. My mind spins in new, unfamiliar
directions. I wonder, and wondrousness
seems to coat the world itself. The world
expands, bigger with possibility, more complex, more unfathomable. I feel small and confused, but in a good way.
Let’s test the
boundaries of the best current work in science and philosophy. Let’s launch ourselves at questions
monstrously large and formidable. Let’s
contemplate these questions carefully, with serious scholarly rigor, pushing
against the edge of human knowledge. That
is an intrinsically worthwhile activity, worth some of our time in a society
generous enough to permit us such time, even if the answers elude us.
4.
To Non-Specialists: An Invitation and Apology.
I will try to
write plainly and accessibly enough that most readers who have come this far
can follow me. I think it is both
possible and important for academic philosophy to be comprehensible to non-specialists. But you should know also that I am writing
primarily for my peers – fellow experts in epistemology, philosophy of mind,
and philosophy of cosmology. There will
be slow and difficult patches, where the details matter. Most of the chapters are based on articles
published in technical philosophy journals – articles revised, updated, and
integrated into what I hope is an intriguing overall vision. These articles have been lengthened and
deepened, not shortened and simplified.
The chapters are designed mostly to stand on their own, with
cross-references to each other. If you
find yourself slogging, please feel free to skip ahead. I’d much rather you skip the boring parts
than that you drop the book entirely.
My middle-school
self who used dice and thrift-shop costumes to imagine astronauts and wizards is
now a fifty-three-year old who uses 21st century science and philosophy to
imagine the shape of the cosmos and the magic of consciousness. Join me!
If doughty our valor, the weird may saveth us.
[1] Greene 2011; Wallace 2012; Carroll 2019. For a review of the leading interpretations,
see Maudlin 2019.
[2] Vardanyan, Trotta, and Silk
2011; Tegmark 2014; Leonard, Bull, and Allison 2016. If the topology is not precisely flat, it
appears about as likely to have a negative, hyperbolically open curvature as a
positive curvature suggesting closure.
[3] For a fuller explication of
this possibility, see Schwitzgebel forthcoming.
[4] Carroll 2010, 2019; Greene 2011, 2020; Tegmark 2014.
This is a theme in fiction. Not to quote Shakespeare-
ReplyDeleteI am halfway between being well read and being illiterate
Still take as examples: Gimpel the Fool, and Seize the Day.
The first being religious, the second psychological
The first hinting at the religious parallel to your thesis: God is unknowable; the second that other people are unknowable.
The first being by Isaac Bashevis Singer, the second by Saul Bellow.
I think great novelists and poets would be more inclined to agree with you, (some of them) than great philosophers- the philosophers want to stick up the world and steal its secrets; yet philosophy and philosophers too are weird
Perhaps we can mystically somehow "get" the world at a preverbal or preformulaic level
Regarding there being the occurrence of every physically possible scenario, in a spatially infinite universe, which is weird enough,there is the modal realism of David Lewis. The latter view has the consequence that every logical possibility is truly instantiated, the actual being what occurs in our world, while the merely possible involves worlds that do not contain us. However, they are just as "real" as the actual (our world) world.
ReplyDeleteFrom the perspectives of morality and theodicy, the universe, physical and logical (in Lewis's sense)is hugely more horrific than common sense dictates.
There is far more suffering and evil than is considered in standard theodicy. Things couldn't really be worse, because if it is logically possible then it is "real", in Lewis'sense.
On Lewis's view, we can't take solace in the thought that our imaginations outstrip reality. Similarly, on the view that the universe is spatially infinite, along with the assumption that life is not infinitesimally improbable and that the bit of the universe we occupy isn't unique in the laws that govern it, is similarly horrific.
Page 4, "Careful 'reflection' will reveal all of the viable theories on these grand topics to be both bizarre and dubious."
ReplyDeleteIf the deep semantics of 'reflection' for reflectionism is: me here there...
...Then your third huge question "What should we value ?" should be the first huge question, as the two other huge questions, "What is the fundamental structure of the cosmos? (and) How does human consciousness fit into it?", answer themselves in reflection's...
If then is the quest-ion for 'value', then what is the structure of value...
Thanks for the comments, folks!
ReplyDeleteDaniel: Yes, Lewis's modal realism is pretty weird and does have the consequence that every possible scenario is real in some world. Lewis is high in my estimation among metaphysicians with bizarre cosmological views.
I assume that Leibniz wasn’t a modal realist. It would be difficult to maintain his cheery outlook.
Deletehttps://www.jstor.org/stable/40237570...
ReplyDelete..."What should we value", refer or cite this review of Dickens's "Hard times"...
...as a everyday, non-modal, reckoning of reality for many people, maybe...
Professor,
ReplyDeleteI like that you’re writing a book to your peers in a way that’s reasonably accessible for normal people. Of course they may grumble about this a bit, as in “Come on Eric, by permitting normal people to comprehend us you’re also devaluing our credentials!” But anyone who has read your 2011 “Obfuscatory Philosophy as Intellectual Authoritarianism and Cowardice” should realize that you have absolutely no use for that point of view. Good!
For general criticism I initially ask myself: 1) Will the public enjoy this book? 2) Will I? 3) Will credentialed philosophers? In all cases I suspect so. Thus I’m afraid that I don’t have any true general criticism for you. I will say however that I don’t technically consider reality to be “weird”, but rather “wonderful”. An education in established physics, chemistry, biology, and so on tends to provide us with valid ideas that do seem weird for a while, though as we grow accustomed to them I think they instead become merely wonderful and interesting.
Given the physics measurement problem you might ask for my thoughts on “the many worlds” proposal? Yeah I do consider that weird, though I’ve also referred to it as über magic to the nth degree — I don’t buy it whatsoever. Similarly the postulation that an infinite universe means that there must be someone out there like me who’s thinking exactly what I am, or actually an infinite number of these thinkers, merely suggests to me that I must not be in an infinite universe. I consider it the job of science and philosophy to transform weird understandings into wonderful understandings.
Finally there’s the existence of phenomenal entities such as myself. Popular modern consciousness theories propose that I’m essentially a product of algorithms that are properly converted into other algorithms. You then take that aspect of what they propose to posit that the United States itself must then also subjectively experience its existence. At some point science (aided by philosophy) should replace this weird idea for one that’s instead wonderful. For example it may be that your phenomenal experience exists in the form of an electromagnetic field created by means of certain synchronous neuron firing. Though initially weird, with continual experimental validation this should progressively be considered just another wonderful component of the causal dynamics which make up modern understandings of how things work.
As I’ve said however, I think you should continue on with the theme of weirdness and simply let me interpret your book a bit differently.
Thanks for these thoughts, Phil E! I agree that weirdness can become wonder. The world is weird *and* wonderful! I'm not sure why we should take non-duplication, a single world, and the absence of group consciousness as fixed points in our thinking, though.
ReplyDeleteI wouldn’t quite call them fixed points professor. I’m saying that as science progresses (hopefully aided some day by various widely agreed upon philosophical principles), that progressively more and more should be agreed upon in science. Furthermore from my own perspective I suspect it will become agreed in science that bajillions of full universes do not emerge from each millimeter of our space each second, that “infinity” will be considered a similarly ridiculous notion once its implications become rationally considered, and that the physics behind subjective experience will be experimentally revealed in science to demonstrate something naturalistically plausible (such as a kind of electromagnetic radiation for example). My own suspicions however, might be wrong!
ReplyDeleteWagers, as it were, rather than fixed points. Yes, I see the attraction of that, even though I might wager a bit differently.
ReplyDeleteMaybe I'm weird but the little I know of quantum mechanices seem the only way things could be. After reading of Zeno's Paradox I've always thought movement seems impossible until I grasped quantum superposition, when a moving object is actually in several positions at once, like Marcel Duchamp's "Nude Descending a Staircase". What moves is the probability of her being in a fixed position. So why can't we tell both where a quantum particle is and it's speed? Take a photo of a moving object. With a slow shutter it will be a blur stretching across the frame. Measure that distance and the time the shutter was open and you get its speed. Photograph the same object with an infinitely fast shutter speed and you get it clear and still and in a fixed position, but you can't calculate its speed because it's not moving. So what's the problem? Smeared across the photograph, the object is in several places at once, it's here and there at the same time. Like the decaying and not-decaying particle that holds the future of Shroedinger's Cat in balance. The cat is both alive and dead at the same time, just as the object is here and there. We open the box and, presto! It's alive. So what about the period before, when it was both alive and dead? What about the dead cat? Is that shunted off into another of those infinitely multiplying universes? Of course not - how could scientists and philosophers swallow that silly idea? It's obvious: the living cat has travelled back in time and erased its dead doppelganger. Retroactively, the cat was always alive. Similarly, quantum entangled particles seem to communicate instantaneously. Particle A and particle B are entangled and shot to opposite ends of the universe. We look at Particle A and that "fixes" its hitherto superposed state to a single one. The other Particle B learns of its state and instantly adusts itself accordingly. How does that happen? How is the information shot across the universe, faster than the speed of light, to inform Particle B what it must become? It doesn't. Particle A retroactively reaches back to when A and B were adjacent, and it was always in its particular state. The communication between A and B is not across space but backward in time. If you want to discuss these ideas further, my email address is eshu55@gmail.com
ReplyDeleteK. Johnson