Miller's planet with Gargantua in background |
Critical
reception for Christopher Nolan's science fiction blockbuster movie Interstellar
was widely mixed. Reviews ranged from being dazzled and awestruck to thinking
it utterly ridiculous and silly. Much of the range in opinion had in fact to do
with the hard science: hard science that Nolan insisted he get right by hiring
theoretical physicist Kip Thorne to best approximate what a black hole and a
wormhole will look like and behave. Science so good that it generated a
discovery worthy of reporting in a scientific journal (see below). The forums
and chats that debated the last half-hour of the movie and its significance
were entertaining, if not informative. Interstellar also generated a spate of
vitriolic, accusing the film as propaganda for American colonialism (see a few
examples below).
I first watched
it in an IMAX theatre (the only way to see such an epic—it was filmed
using
70mm Imax film, after all), which helped achieve its grandness. Since I was
five, I've always wanted to be an astronaut. And I've always been a sucker for
good space adventure—especially well-researched, realistic depictions defined
by a good story. And that is exactly what Interstellar is. And so
much more…
The Endeavour enters the wormhole |
I'll admit
openly that this film swept me up like a giant wave. I sat humbled yet exalted
as I journeyed to some magnificent alien worlds: deep
space; a powerful spherical wormhole; vast shallow waters
between mile-high waves of a tidally locked planet; skimming beneath ice-clouds
of a barren ice-planet; and falling—literally—into a black hole. All to the
recursive echoes of a mesmerizing score by Hans Zimmer. While I was openly
moved during the film, its aftertaste caught me unawares and impressed me
the most about Nolan's talent for subtle paradox. I realized that the
journey—and deep space—felt inexplicably vast and intimate at the same time.
Gargantua Black Hole with Miller's planet in foreground |
The research by
Thorne and Nolan's visual team generated a scientific discovery. To accurately portray a black hole in the film, Thorne
produced a new set of equations to guide the special effects team’s rendering
software. Black holes apparently spin at nearly the speed of light, dragging
bits of the universe along with it. Based on the notion that it was once a star
that collapsed into a singularity, the hole forms a glowing ring that orbits
around a spheroidal maelstrom of light, which curves over the top and under the
bottom simultaneously. The team then discovered that “warping space around the
black hole also warps the accretion disk,” explained Paul Franklin, senior
supervisor of Double Negative (the visual experts). “So, rather than looking
like Saturn’s rings around a black sphere, the light creates this extraordinary
halo.” Thorne confirmed that they had correctly modeled a phenomenon inherent
in the math he’d supplied and intends to publish several articles in scientific
journals, based on these findings.
Canadian
science fiction author Robert J. Sawyer defines good science fiction as: the literature of change; it’s about something “large”
(world-important), arises from a scientific premise; and is generally
pro-science. Interstellar achieves all of these criteria, particularly
the latter.
Cooper and Murph discuss Murphy's Law |
The movie
begins in the near-future on a post-climate change Earth, plagued by dust
storms and failing crops in a society reverted to parochial superstition.
Cooper (Matthew McConaughey), once a NASA pilot and now a farmer, laments: “We
used to look up at the sky and wonder at our place in the stars, now we just
look down and worry about our place in the dirt.”
In a scene
reminiscent of present day schools removing cursive writing from the curriculum
or the controversy of teaching evolution (e.g., in favor of creationism),
Cooper’s daughter’s teacher, Ms. Kelly, informs him at a parent-teacher meeting
that the history textbooks have been rewritten to make known the “truth” about
the moon landing: “I believe [the moon landing] was a brilliant piece of
propaganda,” attests Ms. Kelly, “that the Soviets bankrupted themselves pouring
resources into rockets and other useless machines…And if we don’t want to
repeat the excess and wastefulness of the 20th Century, then we need to teach our kids about this planet, not
tales of leaving it.”
Murph (grown up) trying to solve gravity equation |
The danger of
turning away from scientific exploration—particularly space exploration—in
times of great social and economic insecurity is a theme that runs deep in the
film. Not only are scientists and engineers portrayed as whole individuals,
both smart and compassionate, but they are also marginalized in a future world
looking more to blame than to fix. “We didn’t run out of planes and television
sets,” the principal of the school tells Cooper. “We ran out of food.”
When a
gravitational anomaly leads Cooper and his daughter Murph (Mackenzie Foy) to a
secret NASA base in the middle of nowhere, an old colleague, Professor Brand
(Michael Caine), recruits him to pilot the interstellar Endeavor, NASA’s
“Noah’s Ark”, into the far reaches of outer space to repopulate the human race.
NASA has turned covert due to public pressure against “irrelevant or
politically unfeasible” spending. After showing Cooper how their last corn
crops will eventually fail like the okra and wheat before them, Brand answers
Cooper’s question of, “So, how do you plan on saving the world?” with: “We’re
not meant to save the world…We’re meant to leave it.” Cooper rejoins: “I’ve got
kids.” To which Brand answers: “Then go save them.”
Unbeknownst to
us—and to Cooper, who leaves his precious children behind on Earth for what
turns into a one-way mission—the intention is to literally leave the rest of
humanity behind. You see, Cooper’s ship—headed toward one of three potentially
habitable worlds beyond a wormhole near Saturn—contains the seeds of humanity
and other life that the four astronauts aboard are meant to distribute and
nurture. Cooper and Brand’s daughter, Amelia (Anne Hathaway), one of the other
three astronauts onboard, both believe that the real ark sits back on Earth in
the form of a huge spaceship—awaiting Brand’s solution to the gravity issue.
Brand knows, but keeps to himself, that the solution is insolvable and sends
his intrepid crew off, knowing that Cooper will never see his young son and
daughter again.
While Nolan
admits to some iconic comparisons with Kubrick’s 2001; A Space Odyssey,
Interstellar actually shares much more with the film Contact (in
which Kip Thorne and McConoughey also participated). Contact also
centered on a ground-breaking scientist daughter who misses her lost father.
Mark Kermode, in a Guardian review also saw the
relationship:
“In both movies, it is these daughters who detect the first stirrings of an “alien” encounter: Ellie Arroway (Jodie Foster) identifying recurrent sequences in the white noise of interstellar radiation in Contact; Murph (very affectingly played in her younger years by Mackenzie Foy) spying Morse code in poltergeist disturbances in Interstellar. From such discoveries are missions launched, voyaging across time and space at the apparent instruction of a superior intelligence offering cryptic hands across the universe. Intergalactic portals are breached, timescales bifurcated, science and faith reconciled. Crucially, for all their astro-maths exposition, the constant in both stories is neither time, space, nor gravity, but love. More than once I was reminded of Contact’s Ellie striking the outer limits of the universe and breathlessly declaring: ‘They should have sent a poet.’”
Interstellar
received widely mixed reviews, described as anything from sublime to
ridiculous. Its American-centric presentation generated some criticism (e.g., NASA
acting alone without any international help; all American actors; American
flags erected on settled colonies). Some even vilified the film as “a dangerous fantasy of US colonialism”. Journalist Abraham Riesman raises valid issues to do with
human-centric expansionism in Interstellar:
“Coop and his coterie make one assumption that the movie never questions: Humanity (which, for all we ever see, is white, English-speaking America with a couple of black friends and one British guy) deserves to go to the stars and will suffocate if it's confined to its current environs. That logic was, of course, one of the main justifications for most imperial expansions since the dawn of the 1800s. No one stops to ask whether this civilization (which, in the movie, appears to have murdered its home planet through human-caused climate change, though, for some reason nobody talks about that) needs to make some fundamental changes in its approach to social construction and resource use. Indeed, when we see the bright new future on Cooper Station, it's all baseball and manicured lawns. Perhaps more important, no one questions whether human expansion will kill off the new planets' current residents. Sure, we're told that the planets are uninhabited ... but uninhabited by what? Carbon-based humanoid life forms? What if we immediately kill off whatever fragile ecosystems we find once we take off our helmets and exhale our Earthly germs? Of course, I'm reading too much into a movie that isn't even implying any of the messages I'm inferring, but that's the problem right there: No one's even asking the questions, and for humans, that kind of attitude usually leads to bad answers.”
What saves Interstellar
from skidding into 20th Century pseudo-jingoistic expansionism with undertones of
patriarchal rationalism, is its subversive theme. And because of it, the movie
transcends into artistic commentary.
Amelia Brand sees an anomaly in the ship |
I speak of love.
Love embodied
by two of the main characters—both women: Cooper’s daughter, Murph, and his
shipmate, Amelia Brand. Love that is irrational. Love that is unscientific.
Love that is inexplicable. And love that is all powerful. Inviolate. Eternal.
And, I believe, our salvation.
Aspects of
“imperialist expansionism” and “patriarchal rationalism” interplay through
Cooper, who embodies both in his “cowboy” science. It is love that propels his
evolution to transcend them. In Cooper, we see the constant tension between
rationality of science and the “irrational” faith of love. Related to this,
Cooper must continually choose between the personal and the whole in defining
his humanity and ultimately his hard choices. First with his daughter and her
“ghost”, then with Amelia Brand in their mission to another galaxy.
Miller's planet |
After a botched
mission, Amelia appears to abandon the very tenets of hard science to ask the
defining question: “Maybe we’ve spent too long trying to figure all this out
with theory. Love is the one thing that transcends time and space.” She
describes love as a cosmic force, a kind of empathic drive that provides the
very basis for humanity’s survival: a link to our wholeness as living beings
within a breathing multi-dimensional universe. When Cooper challenges Amelia’s
unscientific notions, she responds with, “Love isn’t something we invented.
It’s observable, powerful … Maybe it’s evidence, some artifact of higher
dimensions that we can’t consciously perceive.” Repeating, almost word for
word, what Cooper said to his father about choosing his interstellar mission,
Amelia admits, “yes, the tiniest possibility [of seeing Wolf again] excites me.
But that doesn’t mean I’m wrong.” To which Cooper answers just as his father
did: “Honestly…it might.”
TARS AI saves Amelia from the giant wave |
Amelia nails it
when she, in turn, challenges Cooper: if the second choice turns out bad, they
will have enough fuel to do only one of two things: go on to the third planet
in hopes of distributing the seeds of humanity OR go back home to his children
and the end of the world. Which will he choose? It’s interesting what he does
end up choosing: he chooses love. Love drives him to do impossible feats, like
dock his shuttle with a damaged and recklessly spinning Endeavor:
CASE: That’s impossibleCOOPER: No, it’s necessary
Love for Murph
drives Cooper into the black hole … and out of it. Love directs him to
that
precise quantum moment where his love for Murph transcends into love for all
humanity: to save the world. This is the secret. The secret Mann in his
intellectualized definition of what it means to be human could not touch. The
window for connection to the whole is through a single tiny grasp of it. The
glimpse into Eternity is through the lens of Love. I am reminded of a quote in
David Mitchell’s Cloud Atlas: “What is any ocean but a multitude of
drops?” In Spielberg’s Schindler’s List, Itzhak Stern quotes the Talmud:
“Whoever saves one life, saves the world entire.”
Mann's planet |
Amelia Brand |
So what is
love, then? Is it gravity? Does it communicate through the God particle in the
fractal fabric of the Higgs field? What other phenomenon grows from nothing?
What other phenomenon is not lessened but in fact grows by giving it away? What
other phenomenon provides the very weight and structure—the meaning—of our
existence? What other phenomenon is like a whisper in a crowded room, yet
creates the most beautiful symphony? Is it that simple?
If gravity is a
plane of existence, a fifth dimension that can exist across space-time, is a
black hole simply a doorway? Like death? Is love the fuel of evolution, lifting
us up into a higher state?
Catholic
theologian Peter Kreeft shares: “…Gravity is love on a material level. In fact,
[gravity] has two movements: one is towards union, back to the center, the big
bang, the past by gravity. And the other is to give itself out to all other
beings, out into the future, the expanding universe, by energy and by entropy,
which is energy giving itself out to the empty places.”
What struck me
the most about Interstellar was how it simultaneously evoked my
breathless awe in the vast universe’s existentialist grandeur with a personal
connection and incredible intimacy. Interstellar was soul-nourishing,
dream-engaging; and its recursive themes called of “home”.
Cooper enters the black hole |
Definitions:
Wormhole: Officially known as an Einstein-Rosen Bridge, a wormhole is a
hypothetical topological feature of spacetime that would fundamentally be a
shortcut through spacetime.
God
Particle: Also known as the Higgs boson or
Higgs particle, the God particle is believed to be the subatomic particle that
gives everything mass. Without it, nothing would have weight or even structure.
The Higg boson is an elementary particle with no spin, electric charge or
colour charge. It is considered the smallest possible quantum excitation of the
Higgs field that unlike the more familiar electromagnetic field cannot
be “turned off”; instead it takes a non-zero constant value almost everywhere.
Higgs
Field: In two papers published in 1964, Peter Higgs posited
that particles obtain mass by interacting with a mysterious invisible energy
force field that permeates the universe: the Higgs field. It is the stuff of
stars, planets, trees, buildings and animals. Without mass, electrons, protons
and neutrons wouldn’t stick together to make atoms; atoms wouldn’t make
molecules and molecules wouldn’t make us. The presence of the Higgs field
explains why some fundamental particles have mass while the symmetries (laws of
nature) controlling their interactions should require them to be massless, and
why the weak force has a much shorter range than the electromagnetic force.
Nina Munteanu is an ecologist and internationally published author of novels, short stories and essays. She coaches writers and teaches writing at George Brown College and the University of Toronto. For more about Nina’s coaching & workshops visit www.ninamunteanu.me. Visitwww.ninamunteanu.ca for more about her writing.
Nina Munteanu is an ecologist and internationally published author of novels, short stories and essays. She coaches writers and teaches writing at George Brown College and the University of Toronto. For more about Nina’s coaching & workshops visit www.ninamunteanu.me. Visitwww.ninamunteanu.ca for more about her writing.
p.s. The music by Hans Zimmer played a key role in establishing the tone and journey of this magnificent movie. In an interview, Nolan reveals that when he approached Zimmer, he didn't tell him that it was a science fiction space film; he simply told Zimmer that it was a story about a father and son (actually a daughter). He gave Zimmer a page of script to create a piece that captured the emotional core of the film. Because it wasn't really an action film, Zimmer's piece embraced the heart of the story, the theme of love... They used Temple Church in central London with its grand organ. Says Nolan, "the organ [and its feel of religious tones] represents humankind's attempt to portray the mystical or the metaphysical, what's beyond us, beyond the realm of the everyday...There's an intimacy as well as massive scale...sometimes within a few bars...
ReplyDeletep.p.s. just got my copy of the musical score for the film and here's what Nolan wrote on the pamphlet that accompanies the CD: " each successive filmI've done with Hans, I've tried to involve him at an earlier and earlier stage. Adding music to a film doesn't work for me...To me the music has to be a fundamental ingredient, not a condiment to be sprinkled on the finished meal." hence ensued their unorthodox collaboration that I mentioned above, based on one page of Nolan's fable at the heart of his project. There was no mention of plot or genre or even the great scope of the project: just the beating heart of the story...Once he'd received the short piece that was to become the basis of the story score, Nolan explained to Zimmer that the project was, in fact, a massive science fiction epic. Said Nolan, "Hans was delighted with the disparity between the human intimacy of my one page and the otherworldly thrills of the overall film for which the music would serve as emotional guide." Nolan finally adds that Hans Zimmer "is a creator who embraces the thrill and mess of reality's disregard for abstract intentions -- the making of the thing is the thing itself."
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