A crisis in physics
Physics is in crisis. For the past century or so, we have explained the universe with two wildly successful physical theories: general relativity and quantum mechanics. Quantum mechanics describes how things work in the incredibly tiny world of particles and particle interactions. General relativity describes the big picture of gravity and how objects move.
Both theories work extremely well in their own right, but the two are thought to conflict with one another. Though the exact nature of the conflict is controversial, scientists generally agree both theories need to be replaced with a new, more general theory.
Physicists want to produce a theory of “quantum gravity” that replaces general
relativity and quantum mechanics, while capturing the extraordinary success of
both. Such a theory would explain how gravity’s big picture works at the
miniature scale of particles.
Time in quantum gravity
It turns out that producing a theory of quantum gravity is extraordinarily difficult. One attempt to overcome the conflict between the two theories is string theory. String theory replaces particles with strings vibrating in as many as 11 dimensions. However, string theory faces a further difficulty. String theories provide a range of models that describe a universe broadly like our own, and they don’t really make any clear predictions that can be tested by experiments to figure out which model is the right one.
In the 1980s and 1990s, many physicists became
dissatisfied with string theory and came up with a range of new mathematical
approaches to quantum gravity. One of the most prominent of these is loop quantum gravity,
which proposes that the fabric of space and time is made of a network of
extremely small discrete chunks, or “loops”.
One of the remarkable aspects of loop quantum gravity
is that it appears to eliminate time entirely. Loop quantum gravity is not
alone in abolishing time: a number of other approaches also seem to remove time
as a fundamental aspect of reality.
Emergent
time
So, we know we need a new physical theory to explain the universe,
and that this theory might not feature time. Suppose such a theory turns out to
be correct. Would it follow that time does not exist? It’s
complicated, and it depends on what we mean by exist.
Theories of physics don’t include any tables, chairs,
or people, and yet we still accept that tables, chairs and people exist. Why?
Because we assume that such things exist at a higher level than the level
described by physics. We say that tables, for example, “emerge” from an
underlying physics of particles whizzing around the universe.
But while we have a pretty good sense of how a table
might be made out of fundamental particles, we have no idea how time might be
“made out of” something more fundamental. So, unless we can come up with a good
account of how time emerges, it
is not clear we can simply assume time exists. Time might not exist at any
level.
Time
and agency
Saying that time does not exist at any level is like saying that
there are no tables at all. Trying to get by in a world without tables might be tough but managing in a world without time seems positively disastrous.
Our entire lives are built around time. We plan for the future, in light of what we know about the past. We hold people morally accountable for their past actions, with an eye to reprimanding them later on. We believe ourselves to be agents (entities that can do things) in part because we can plan to act in a way that will bring about changes in the future. But what’s the point of acting to bring about a change in the future when, in a very real sense, there is no future to act for?
What’s the point of punishing someone for a past
action, when there is no past and so, apparently, no such action? The discovery
that time does not exist would seem to bring the entire world to a grinding
halt. We would have no reason to get out of bed.
Business
as usual
There is a way out of the mess. While physics might eliminate
time, it seems to leave causation intact:
the sense in which one thing can bring about another. Perhaps what physics is
telling us, then, is that causation and not time is the basic feature of our
universe.
If that’s right, then agency can still survive. For it
is possible to reconstruct a sense of agency entirely in causal terms. At
least, that’s what Kristie Miller, Jonathan Tallant and I argue in our new book. We
suggest the discovery that time does not exist may have no direct impact on our
lives, even while it propels physics into a new era.
Sam Baron,
Associate professor, Australian Catholic University,
The Conversation
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