Some things have confused me about the black hole in Interstellar. Namely:

  • How did Cooper ever leave the black hole once he was inside it?

  • How was Cooper able to suspend in the tesseract? Something allowed him to decelerate.

  • How was the AI machine able to send Cooper messages considering messages are EM waves and a black hole's gravity is such that it will suck EM waves into the singularity?

  • Me also have the same doubts!!!!
    – Mad Angle
    Nov 11, 2014 at 12:10
  • You do not "enter" a black hole. It isn't actually a hole. It is formerly a star whose matter has been shrunken to a tiny point called a singularity. The area around the singularity, the event horizon and intense gravitational field outside of the event horizon are the active areas where this story is supposed to be taking place. If they crew had encountered the actual black hole or even crossed the event horizon, there would have been no story at all! Nov 11, 2014 at 20:43
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    @Thaddeus: Except that at the end of the film, Cooper does cross the event horizon, and finds himself in the tesseract created by the black hole builders. Nov 11, 2014 at 20:45
  • The event horizon is STILL NOT THE SINGULARITY. The event horizon is the region around the singularity where the gravity is so great, not even light can escape. It makes sense this is where the Wormhole creators would make the wormhole. This area is basically outside of time, and ruptures the known fabric of the universe. The perfect place to create a wormhole between two locations and/or time periods. Nov 11, 2014 at 20:49
  • @Thaddeus: I know the event horizon and singularity are not the same thing. But you said they didn't cross the event horizon. Nov 11, 2014 at 20:50

4 Answers 4


Since this is a question about physics (albeit in the realm of a film), I'll give a physics-based answer, with caveats at the end.

A common misunderstanding is that there is just one type of black hole, namely a Schwarzschild black hole. There are actually many types, which differ topologically (the number of dimensions and underlying "shape" of space near to the black hole) and metrically (the class of solution to Einstein's field equations, a highly nonlinear tensor equation and the defining mathematical construct of general relativity).

Most likely, the black hole in Interstellar is a Kerr black hole. This is an axisymmetric black hole with nonzero angular momentum. In lay terms: it rotates. Having read some of the source material related to Kip Thorne's involvement with the film, as well as what they were trying to achieve with the visuals, I would put my money on a Kerr black hole. This is also consistent with the fact that planets seem to be orbiting this black hole!

Coop's experience inside the black hole is also consistent with the theory. A Kerr black hole is not nearly as "destructive" as a standard, non-rotating Schwarzschild black hole. In particular, the singularity is ring-shaped with a nonzero radius and objects (particles, really) can travel past the event horizon and through the ring without intersecting the singularity itself. Inside the ring, one experiences the Carter effect (named after physicist Brandon Carter), in which one can move freely in time as one would in space. That seems to be Coop's "tesseract" in a nutshell!

Caveats: All of this having been said, it is still very unlikely that Coop could travel into the horizon and out again in one piece, without some sort of intervention that changes the physical reality he would be facing. The black hole itself may have been altered by the beings who communicated with him in the first place — beings whose understanding of bulk-brane string cosmology and gauge/gravity duality within the so-called "strong coupling" regime would be vastly superior to our own extremely modest / sketchy understanding of such things, and whose engineering prowess would also be vastly superior. Such beings could reasonably have the ability to design or alter an existing black hole to their specifications (i.e. an idealized Kerr black hole) and may have been able to facilitate Coop's entry and exit to the interior Boyer-Lindquist block (these are natural coordinates on a Kerr black hole spacetime) where "timelike" and "spacelike" are swapped.

  • Also, I should add that general relativity is one of my main specialities, and for good measure, I consulted two other colleagues of mine in the physics department I work for before posting this.
    – Praxis
    Apr 10, 2015 at 3:32
  • But you are talking about an idealized eternal Kerr black hole, a realistic rotating black hole that formed from collapsing matter is not expected to have an avoidable timelike ring singularity but unavoidable spacelike and null singularities (see here). And the "The Science of Interstellar" made clear that the tesseract was meant to be a piece of advanced technology that could freely travel into the "bulk" (the higher spatial dimension), away from our "brane" (the familiar 3 dimensions of space and 1 of time) where the black hole resides.
    – Hypnosifl
    Apr 10, 2015 at 4:24
  • @Hypnosifl : I'm not sure what your physics background is, but that's just one paper, out of several hundred on the subject. The authors make various assumptions on initial conditions in trying to construct a "realistic" model, assumptions that may or may not apply here. Also, I acknowledge that the tesseract is intended to be artificially created, but it could have been designed to exploit the Carter effect. In any case, whoever designed the tesseract will likely have resolved many obstacles to properly understanding AdS/CFT, gauge / gravity, and holography...
    – Praxis
    Apr 10, 2015 at 4:38
  • ...in the strongly-coupled regime, and will have also made significant feats of engineering. It might be reasonable to conclude that the tesseract's creators could have the ability to artificially influence the extremality of his particular black hole.
    – Praxis
    Apr 10, 2015 at 4:38
  • @Praxis The time for Cooper was slower than that of outside the black hole. Shouldn't Cooper be possibly crushed by the huge amount of gas and interstellar materials that have entered into the black hole over a long period of time (relatively)? Before getting into the tesseract inside the black hole the space-ship and Cooper was like floating in free space. Isn't a black hole means collapsing of masses? Do you mean anyhow that in theoretical physics it is possible to go inside of a Kerr Black Hole for a human being safely?
    – VacuuM
    Apr 10, 2015 at 5:06

The black hole in Interstellar was not purely natural, but had been created or modified by a stupendously powerful and advanced civilization. As such, there is not much point trying to analyse the properties of its interior in terms of our current understanding of physics.

The film makes it clear that the black hole engineers can manipulate spacetime, which enabled the time-travel effects seen by the characters. Cooper and TARS surmise that the tesseract was created by the builders, as an environment in which Cooper could survive and

send messages to his past self and Murph, as the builders wanted/needed him to do.

As for how Cooper left: In our current understanding, once matter crosses the event horizon of a black hole, it can't get out again. We can only assume that with a sufficiently advanced technology, the black hole builders knew of a loophole which allowed him to get out.

It is worth noting that in theory, black holes emit electromagnetic radiation, so they aren't completely black.

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    When mentioned that was not a naturally occurring black hole?
    – JeanPaul
    Nov 11, 2014 at 21:14
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    They mentioned that the worm hole had been specifically placed, but I don't recall any mention of the black hole being manufactured in any way.
    – phantom42
    Nov 12, 2014 at 1:31
  • Fair point, it isn't mentioned whether the advanced civilization created the black hole or modified a naturally occurring one. Either way, it was clear the black hole had been changed from its natural state, I've edited accordingly. Nov 12, 2014 at 8:44
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    It's worth noting that the theoretically EM radiation is "emitted" from a point very close to the event horizon, and it's actually an artifact of an escape of one of the particles form a particle-antiparticle pair near the horizon. Once a particle, or a photon, passes that point towards the black hole, it cannot escape by any means of known physics laws. So, one way to look at it is that, every now an then, a tiny bit of Coop's squashed pancake mass would turn into energy needed to split these two particles.
    – vgru
    Nov 17, 2014 at 11:15
  • Also, the black hole not being purely natural is a convenient "deus ex machina" explanation (which is sadly what we have to end up with, given the inconsistencies). But all their observances close to its gravitational field showed full accordance with calculations predicted by general relativity, so it seems they had to go through a lot of trouble to "mask" it, just to allow the (spoiler stuff) to happen, which they would be able to do themselves anyway given the apparently even more intricate understanding of the "singularity voodoo".
    – vgru
    Nov 17, 2014 at 11:25

I'll address question #1 first. I think this one has to do with the fact that Cooper and TARS actually reached one of the singularities inside the black hole, where TARS was able to gather the needed "quantum data" (my answer here covers why this was necessary), and that was the point where they were rescued from the black hole by the "tesseract" which had been created by the beings living in the higher spatial dimension. This bit of dialogue between Cooper and Romilly on Mann's planet is key:

ROMILLY: I have a suggestion for your return journey.


ROMILLY: Have one last crack at the black hole. Gargantua's an older, spinning black hole - what we call a gentle singularity.

COOPER: Gentle?

ROMILLY: They're hardly gentle, but their tidal gravity is quick enough that something crossing the horizon fast might survive...a probe, say.

COOPER: What happens to it after it crosses?

ROMILLY: Beyond the horizon is a complete mystery - who's to say there isn't some way the probe can glimpse the singularity and relay the quantum data? If he's equipped to transmit every form of energy that can pulse - X-ray, visible light, radio -

TARS: Just when did this probe become a 'he'?

ROMILLY: TARS is the obvious candidate. I've already told him what to look for.

As explained in Ch. 26 of The Science of Interstellar by physicist Kip Thorne (who was the movie's science consultant), a realistic version of a rotating black hole like the one in Interstellar would actually have more than one singularity. There is of course the one at the center, which Thorne says would likely be a type of singularity known as a BKL singularity. This type of singularity would rip apart all objects with ever-more-violent oscillations in the tidal forces, which are gravitational forces that act differently on different parts of an extended object (an astronaut's feet being pulled more strongly than his head, for example) and therefore have the effect of stretching and squeezing it. The wiki article on the BKL singularity only talks about it in the context of the Big Bang, but you can look at this article for a discussion of how BKL singularities would apply to black holes.

In addition to the central singularity, theoretical analysis suggest that for rotating black holes there'd be two others, which Thorne labels the "infalling" and "outflying" singularities. These occur when, due to the particular way that time dilation occurs inside the black hole, waves and matter which fell into the black hole at many different times will converge at the "inner horizon" at the same moment--this is a second horizon found in rotating black holes below the outer event horizon, which is not predicted to be present in non-rotating, uncharged black holes (the inner horizon is also often referred to as the Cauchy horizon, and is also theoretically predicted to be present in non-rotating but charged Reissner-Nordstrom black holes). From what I have read elsewhere, the fact that there is a type of singularity here is related to the fact that electromagnetic and gravitational waves become infinitely blue-shifted at the horizon, meaning their wavelength approaches zero as they approach it--this is mentioned for example in the section "Penrose diagram illustrating the cause of mass inflation" at the bottom of this page.

However, unlike the central singularity, these two singularities at the inner horizon may be "gentle" ones in the sense that not only can individual particles theoretically pass through them and continue on the other side, but the period when the tidal forces become really large might be brief enough that they'd only distort the relative positions of the atoms in an object by a finite amount, an amount which might not be enough to rip apart a solid object like a human. Ultimately though, physicists can't really say what would happen when crossing these singularities even from a theoretical perspective, because the theory they use to analyze tidal forces and other spacetime distortions, Einstein's theory of general relativity, is expected to become inaccurate in regions of spacetime with energy densities that reach a scale known as the Planck scale, and in these regions it's thought that a theory of quantum gravity would be needed to make accurate predictions (string theory is an attempt to create such a theory, but it's incomplete).

Here's Kip Thorne discussing both the infalling and outflying singularities in chapter 26:

If you fall into a spinning black hole such as Gargantua, lots of other stuff inevitably will fall in after you: gas, dust, light, gravitational waves, and so forth. That stuff may take millions or billions of years to enter the hole as seen by me, watching from outside. But as seen by you, now inside the hole, it may take only a few seconds or less, due to the extreme slowing of your time compared with mine. As a result, as seen by you this stuff all piles up in a thin sheet, falling inward toward you at the speed of light, or nearly the speed of light, or nearly the speed of light. This sheet generates intense tidal forces that distort space and will distort you, if the sheet hits you.

The tidal forces grow to become infinite. The result is an "infalling singularity" ... governed by the laws of quantum gravity. However, the tidal forces grow so swiftly (Poisson and Israel deduced) that, if they hit you, they will have deformed you by only a finite amount at the moment you reach the singularity. ... Because your body has been stretched and squeezed by only a finite net amount, when you reach the singularity, it is conceivable you migh survive. (Conceivable but unlikely, I think.) In this sense, the infalling singularity is far more "gentle" then the BKL singularity. If you do survive, what happens next is known only to the laws of quantum gravity.

In the 1990s and 2000s, we physicists thought this was the whole story: A BKL singularity, created when the black hole is born. And an infalling singularity that grows afterward. That's all.

Then in late 2012, while Christopher Nolan was negotiating to rewrite and direct Interstellar, a third singularity was discovered by Donald Marolf (University of California at Santa Barbara) and Amos Ori (The Technion, in Haifa, Israel). It was discovered, of course, via an in-depth study of Einstein’s relativistic laws and not via astronomical observations.

In retrospect, this singularity should have been obvious. It is an outflying singularity that grows as the black hole ages, just like the infalling singularity grows. It is produced by stuff (gas, dust, light, gravitational waves, etc.) that fell into the black hole before you fell in ... A tiny fraction of that stuff is scattered back upward toward you, scattered by the hole's warpage of space and time, much like sunlight scattered off a curved, smooth ocean wave, which brings us an image of the wave.

The upscattered stuff gets compressed, by the black hole’s extreme slowing of time, into a thin layer rather like a sonic book (a "shock front"). The stuff’s gravity produces tidal forces that grown infinitely strong and thence become an outflying singularity. But as for the infalling singularity, so also for this outflying one, the tidal forces are gentle; They grow so quickly, so suddenly, that, if you encounter one, your net distortion is finite, not infinite, at the moment you hit the singularity.

(If anyone knows enough physics to follow any of the details, the 2012 paper discussing the outflying singularity is here--there wasn't much I could understand, but if you look at the little primer here on Penrose diagrams for different types of black holes, you can then compare with the authors' Penrose diagram for a realistic rotating black hole in Fig. 4 on p. 17 of the paper, which shows the infalling singularity as a red dotted line, and the outflying singularity as a solid red line labeled 'Shockwave'. Also note that the "Discussion" section on p. 18 talks about comparing "two different types of null singularity that develop at the inner horizon", confirming that this is where these two singularities are located.)

The "tesseract", meanwhile, is supposed to be a piece of technology created by the beings (possibly descended from humans) who live in the extra spatial dimension, the "bulk". This idea of an extra extended spatial dimension is based on a real physics theory, the Randall-Sundrum model--see my discussion in this answer for more details. The tesseract is shaped like a four-dimensional hypercube (that's what the word 'tesseract' means, in fact), so each of its "faces" is a 3D cube, just like each face of a 3D cube is a 2D square. In ch. 29 Thorne describes how the tesseract can "dock" one of its faces to our ordinary 3D space, which in the Randall-Sundrum theory is a 3D brane sitting in the 4D space of the bulk (for anyone familiar with the classic "math fiction" story Flatland, I think this docking of a higher-dimensional structure with our space is meant to be analogous to how the 3D sphere was able to materialize in the 2D universe by having one of its cross-sections in the 2D plane). Also, at the end of ch. 28, Thorne indicates that Cooper entered the tesseract at a point right along the outflying singularity (the fact that he and TARS passed through the outflying singularity was necessary to the plot since this allowed them to gather the "quantum data" about the singularity--the other answer of mine I linked to above discusses this as well). Quoting from ch. 28:

In my science interpretation, as the Ranger nears the outflying singularity, it encounters mounting tidal forces. Cooper ejects just in the nick of time. Tidal forces tear the Ranger apart. Visually, it splits in two.

At the singularity's edge the tesseract awaits Cooper—placed there, presumably, by bulk beings

Apparently the tesseract is then able to un-dock and leave that region of our 3D space, travel through the bulk, and later dock itself to Murph's bedroom in the past. In ch. 29, Thorne says:

In my interpretation of the movie, the tesseract ascends from the singularity into the bulk. Being an object with the same number of space dimensions as the bulk (four), it happily inhabits the bulk. And it transports three-dimensional Cooper, lodged in its three-dimensional face, through the bulk.

Now, recall that the distance from Gargantua to Earth is about 10 billion light-years as measured in our brane (in our universe, with its three spatial dimensions). However, as measured in the bulk, that distance is only about 1 AU (the distance from the Sun to the Earth) ... So, traveling with whatever propulsion system the bulk beings provided, the tesseract, in my interpretation, can quickly carry Cooper across our universe, via the bulk, to Earth.


To match what is shown in the movie, I imagine this trip is very quick, just a few minutes, while Cooper is still dazed and falling. As he comes to rest, floating in the large chamber,the tesseract docks besides Murph's bedroom.


The back face of the tesseract coincides with Murph's bedroom. I'll explain that more carefully. The back face is a three-dimensional cross section of the tesseract that resides in Murph's bedroom in the same sense as the circular cross section of a sphere resides in a two-dimensional brane

Now, even if an extra bulk dimension does exist in reality as postulated by the Randall-Sundrum theory, I don't know if it would actually be physically possible for anything to leave our 3D space from a point inside a black hole's event horizon and escape the black hole entirely. Theories involving a "bulk" dimension say that the gravitational force can travel from objects in our 3D space into the bulk (whereas other forces like the electromagnetic force are supposed to be confined to our 3D space), so anything in the bulk should still be affected by gravity and perhaps this would mean that the event horizon would extend up into the bulk, so that jumping into the bulk from the black hole's interior wouldn't actually allow something to escape the black hole's event horizon (though I found this paper saying physicists have had difficulties describing how black holes would work in the Randall-Sundrum theory, so it may be something of an open question). But since Thorne said specifically that the tesseract was in contact with the singularity itself when it picked up Cooper, this would mean quantum gravity could be involved in its un-docking from our 3D space, so without a theory of quantum gravity we can't really say for sure whether escape from a black hole would be possible at that point. If you want to imagine a way to escape a black hole in the context of a speculative science fiction story that's just trying not to explicitly violate any known physics principles, appealing to the mysteries of quantum gravity seems like a reasonable way to go.

As for your second question about why Cooper wasn't still moving at high speed inside the tesseract, this isn't explicitly addressed by Thorne, but perhaps it's designed so that the part of it that intersects our 3D space can match velocities with any desired object in that space. This is suggested by the fact that the tesseract was semi-permanently docked to Murph's room, even though the room was on the surface of a spinning and orbiting planet, and also that Cooper was able to interact with Amelia Brand in a later scene, giving her a "handshake". So we could imagine that inside the black hole, the tesseract's intersection with our 3D space was moving along a course that not only would lead it to meet Cooper right at the outflying singularity, but also would lead to its velocity being approximately matched to Cooper's at that moment (although not perfectly matched, since Thorne says in the above quote that Cooper continued falling for a while within the tesseract before he 'comes to rest'). Alternately, since the bulk beings were supposed to have mastered the control of gravity (again see this answer of mine for details), perhaps they used that to adjust his speed once he entered the tesseract.

And for your third question, two observers who fall into a black hole can indeed continue to exchange signals back and forth as they fall. If you just want some confirmation this is true, see this page by the physicist Andrew Hamilton about the experience of someone falling through the event horizon, which says "Persons who appear to us to be inside the Schwarzschild bubble have passed inside the horizon of the black hole. If they are sufficiently close to us, then we can communicate with them, but they must be close, for there's not much time left before we hit the central singularity, not much time left for light signals to travel between us." But if you want some understanding of why this is the case, I gave my own conceptual explanation for this in this answer on the physics stack exchange--as I said there, I think the issue is easiest to understand if you use a "conformal" spacetime diagram like a Penrose diagram or a Kruskal-Szekeres diagram. In such diagrams, time is shown on the vertical axis and the radial space dimension is shown on the horizontal, and anything moving at the speed of light will be represented as a straight line inclined 45 degrees from the verticle. By the same token, the world line of any object moving slower than light (i.e. the line or curve showing its position as a function of time) will always have a slope that's closer to vertical than 45 degrees. Then the key to understanding why you can't escape the event horizon once you've crossed it is that it is also represented as a straight line at 45 degrees from the vertical--so in effect, in the coordinate system the diagram is based on, the event horizon is moving outwards at the speed of light, so once you're inside it there's no way to overtake it and cross back out unless you could move faster than light yourself. But there's no problem changing direction and moving back in the "outward" direction, or sending a light signal in the outward direction to communicate with a friend who's falling alongside you. This answer to another question by John Rennie includes a Kruskal-Szekeres diagram of a falling object sending light signals in both the inward and outward direction while inside the horizon of a non-rotating black hole:

enter image description here

As noted, the dotted line is the event horizon and the blue line is the world line of an observer falling in, and the two pink lines are light signals sent in both directions. Both the observer and the two light signals will inevitably hit the singularity which is represented by the red curve, but prior to that, if you imagine a second blue curve next to the first representing a second observer falling alongside the first, there would be no problem with them exchanging a few more pink light rays back and forth before hitting the singularity.


I remember that either Cooper or TARS said something about being saved from the black hole by the superior beings.

I could not find a script so I can't point you directly to the dialogue but if you watch the scene in the tesseract where they start talking to each other, one of them says something along the lines of "They built this place in their higher dimension and brought us here. They saved us.".

This means that Cooper and TARS either never actually made it into the black hole or they were simply extracted from it and transported into the tesseract before being crushed.

What we know for sure is that the tesseract was not inside the black hole so that's why they were not destroyed and were still able to communicate.

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