1. Hello.Copy !req
2. My name is Stephen Hawking...Copy !req
3. physicist, cosmologist...Copy !req
4. and something of a dreamer.Copy !req
5. Although I cannot move...Copy !req
6. and I have to
speak through a computer...Copy !req
7. in my mind, I am free.Copy !req
8. Free to explore the universe
and ask the big questions...Copy !req
9. such as,
is time travel possible?Copy !req
10. Can we open a portal
to the past?Copy !req
11. Or find a shortcut
to the future?Copy !req
12. Can we ultimately
use the laws of natureCopy !req
13. to become masters
of time itself?Copy !req
14. Check it out.Copy !req
15. Time travel was once
considered scientific heresy.Copy !req
16. I used to avoid talking about itCopy !req
17. for fear of being labeled
a crank.Copy !req
18. But these days,
I'm not so cautious.Copy !req
19. In fact, I'm more like
the people who built Stonehenge.Copy !req
20. I'm obsessed by time.Copy !req
21. If I had a time machine...Copy !req
22. I'd visit Marilyn Monroe
in her prime.Copy !req
23. Or drop in on GalileoCopy !req
24. as he turned his telescope
to the heavens.Copy !req
25. Perhaps I'd even travel
to the end of the universeCopy !req
26. to find out
how our whole cosmic story ends.Copy !req
27. To see how this
might be possible,Copy !req
28. we need to look at time
as physicists do.Copy !req
29. As the fourth dimension.Copy !req
30. It's not as hard as it sounds.Copy !req
31. All physical objects,
even me and my chair,Copy !req
32. exist in three dimensions.Copy !req
33. Everything has a width
and a height and a length.Copy !req
34. But there is
another kind of length...Copy !req
35. a length in time.Copy !req
36. While a human
may survive for 80 years,Copy !req
37. these stones will last
much longer...Copy !req
38. for thousands of years.Copy !req
39. And the solar system will last
for billions of years.Copy !req
40. Everything has a length in time
as well as space.Copy !req
41. Traveling in timeCopy !req
42. means traveling
through this fourth dimension.Copy !req
43. To see what that means,Copy !req
44. let's do a bit
of normal everyday travelingCopy !req
45. just to get a feel for it.Copy !req
46. A fast car makes it
a bit more fun.Copy !req
47. Drive in a straight line,Copy !req
48. and you're traveling
in one dimension.Copy !req
49. Turn right or left, and you add
the second dimension.Copy !req
50. Drive up or down
a twisty mountain road,Copy !req
51. and that adds height.Copy !req
52. So that's traveling
in all three dimensions.Copy !req
53. But how on earth
do we travel in time?Copy !req
54. How do we find a path
through the fourth dimension?Copy !req
55. Let's indulge in a little
science fiction for a moment.Copy !req
56. Time-travel movies often feature
a vast energy-hungry machine.Copy !req
57. The machine creates a path
through the fourth dimension,Copy !req
58. a tunnel through time.Copy !req
59. A time traveler...Copy !req
60. a brave,
perhaps foolhardy individualCopy !req
61. prepared for who knows what,
steps into the time tunnelCopy !req
62. and emerges who knows when.Copy !req
63. The concept may be far-fetched.Copy !req
64. And the reality
may be very different than this.Copy !req
65. But the idea itself
is not so crazy.Copy !req
66. Physicists have been thinking
about tunnels in time, too.Copy !req
67. But we covered it
from a different angle.Copy !req
68. We wonder if portals to the past
or the futureCopy !req
69. could ever be possible
within the laws of nature.Copy !req
70. As it turns out,
we think they are.Copy !req
71. What's more,
we've even given them a name.Copy !req
72. Wormholes.Copy !req
73. The truth is that wormholes
are all around us,Copy !req
74. only they're too small to see.Copy !req
75. Wormholes are very tiny.Copy !req
76. They occur in nooks and crannies
in space and time.Copy !req
77. You might find it a tough
concept, but stay with me.Copy !req
78. Nothing is flat or solid.Copy !req
79. If you look closely enough
at anything,Copy !req
80. you'll find holes
and wrinkles in it.Copy !req
81. It's a basic physical principle,
and it even applies to time.Copy !req
82. Take this pool table.Copy !req
83. The surface looks flat
and smooth.Copy !req
84. But up close,
it's actually anything but.Copy !req
85. It's full of gaps and holes.Copy !req
86. Even something as smooth
as a pool ballCopy !req
87. has tiny crevices,
wrinkles, and voids.Copy !req
88. Now, it's easy to show
that this is trueCopy !req
89. in the first three dimensions.Copy !req
90. But trust me, it's also true
of the fourth dimension as well.Copy !req
91. There are tiny crevices,
wrinkles, and voids in time.Copy !req
92. Down at the smallest of scales,Copy !req
93. smaller even than molecules,
smaller than atoms,Copy !req
94. we get to a place
called the quantum foam.Copy !req
95. This is where wormholes exist.Copy !req
96. Tiny tunnels or shortcuts
through space and timeCopy !req
97. constantly form,
disappear, and re-formCopy !req
98. within this quantum world.Copy !req
99. And they actually link
two separate placesCopy !req
100. and two different times.Copy !req
101. Unfortunately,
these real-life time tunnelsCopy !req
102. are just
a billion trillion trillionthsCopy !req
103. of a centimeter across.Copy !req
104. Way too small
for a human to pass through.Copy !req
105. But here's where the notion
of wormhole time machinesCopy !req
106. is leading.Copy !req
107. Some scientists think it may be
possible to capture oneCopy !req
108. and enlarge it
many trillions of timesCopy !req
109. to make it big enough
for a humanCopy !req
110. or even a spaceship to enter.Copy !req
111. Given enough power
and advanced technology,Copy !req
112. perhaps a giant wormhole could
even be constructed in space.Copy !req
113. I'm not saying it can be done,
but if it could be,Copy !req
114. it would be
a truly remarkable device.Copy !req
115. One end could be here
near the earth,Copy !req
116. and the other far, far away,
near some distant planet.Copy !req
117. Theoretically,
a wormhole could do even more.Copy !req
118. If both ends
were in the same placeCopy !req
119. and separated by time
instead of distance,Copy !req
120. a ship could fly in and come out
still near the earth,Copy !req
121. but in the distant past.Copy !req
122. Maybe dinosaurs would witnessCopy !req
123. the ship coming in
for a landing.Copy !req
124. Now, I realize that thinking
in four dimensions is not easyCopy !req
125. and that wormholes
are a tricky conceptCopy !req
126. to wrap your head around.Copy !req
127. But hang in there.Copy !req
128. I've thought up
a simple experimentCopy !req
129. that could reveal if human
time travel through a wormholeCopy !req
130. is possible now...Copy !req
131. or even in the future.Copy !req
132. I like simple experiments
and champagne.Copy !req
133. So I've combined
two of my favorite thingsCopy !req
134. to see if time travel
from the future to the pastCopy !req
135. is possible.Copy !req
136. I'm throwing a party...Copy !req
137. a welcome reception
for future time travelers.Copy !req
138. But there's a twist.Copy !req
139. I am not letting anyone
know about itCopy !req
140. until after the party
has happened.Copy !req
141. Here is the invitation,Copy !req
142. giving the exact coordinates
in time and space.Copy !req
143. I am hoping copies of it,
in one form or another,Copy !req
144. will survive
for many thousands of years.Copy !req
145. Maybe one day
someone living in the futureCopy !req
146. will find the informationCopy !req
147. and use a wormhole time machine
to come back to my party,Copy !req
148. proving that time travel
will one day be possible.Copy !req
149. My time-traveler guestsCopy !req
150. could be arriving
any moment now.Copy !req
151. 5...Copy !req
152. 4...Copy !req
153. 3...Copy !req
154. 2...Copy !req
155. 1.Copy !req
156. What a shame.Copy !req
157. I was hoping
a future Miss UniverseCopy !req
158. was going to
step through the door.Copy !req
159. So, why didn't
the experiment work?Copy !req
160. I think one of the reasonsCopy !req
161. might be
because of a well-known problemCopy !req
162. with time travel to the past...
the problem of paradoxes.Copy !req
163. Paradoxes are fun
to think about.Copy !req
164. The most famous one is usually
called the grandfather paradox.Copy !req
165. I have a new, simpler versionCopy !req
166. I call
the mad-scientist paradox.Copy !req
167. I don't like the way
scientists in moviesCopy !req
168. are often described as mad.Copy !req
169. But in this case, it's true.Copy !req
170. This chap is determined
to create a paradox,Copy !req
171. even if it costs him his life.Copy !req
172. Imagine somehow
he's built a wormhole...Copy !req
173. a time tunnel that stretches
just one minute into the past.Copy !req
174. It may not sound like much,Copy !req
175. but even one minute of time
travel can cause real trouble.Copy !req
176. Through the wormhole,
the scientist can see himselfCopy !req
177. as he was one minute ago.Copy !req
178. But what if our scientist
uses the wormholeCopy !req
179. to shoot his earlier self?Copy !req
180. He's now dead,Copy !req
181. killed before he'd even finished
assembling the pistol.Copy !req
182. So who fired the shot?Copy !req
183. It's a paradox.Copy !req
184. It just doesn't make sense.Copy !req
185. It's the sort of situationCopy !req
186. that gives cosmologists
nightmares.Copy !req
187. This kind of time machine
would violate a fundamental ruleCopy !req
188. that governs
the entire universe...Copy !req
189. that causes happen
before effectsCopy !req
190. and never the other way around.Copy !req
191. I believe things can't
make themselves impossible.Copy !req
192. If they could,
then there'd be nothingCopy !req
193. to stop the whole universe
from descending into chaos.Copy !req
194. So I think something
will always happenCopy !req
195. that prevents the paradox.Copy !req
196. Somehow there must be a reasonCopy !req
197. why our scientist
will never find himselfCopy !req
198. in a situation
where he could shoot himself.Copy !req
199. And in this case,
I'm sorry to say,Copy !req
200. the wormhole itself
is the problem.Copy !req
201. In the end, I think a wormhole
like this one can't exist.Copy !req
202. And the reason for that
is feedback.Copy !req
203. If you've ever been
to a rock gig,Copy !req
204. you'll probably recognize
this screeching noise.Copy !req
205. It's feedback.Copy !req
206. What causes it is simple.Copy !req
207. Sound enters the microphone.Copy !req
208. It's transmitted
along the wires...Copy !req
209. made louder by the amplifier...Copy !req
210. and comes out
at the speakers.Copy !req
211. But if too much of the sound
from the speakersCopy !req
212. goes back into the mike...Copy !req
213. it goes 'round and 'round
in a loop,Copy !req
214. getting louder each time.Copy !req
215. If no one stops it,Copy !req
216. feedback can destroy
the sound system.Copy !req
217. I think the same thing
will happen with a wormhole,Copy !req
218. only with radiation
instead of sound.Copy !req
219. As soon as the wormhole expands,Copy !req
220. natural radiation will enter it
and end up in a loop.Copy !req
221. The feedback will become
so strong,Copy !req
222. it destroys the wormhole.Copy !req
223. So, although
tiny wormholes do existCopy !req
224. and it may be possible
to inflate one someday,Copy !req
225. it won't last long enough
to be of use as a time machine.Copy !req
226. That's the real reason
no one came to the party.Copy !req
227. In fact, I believe any kind
of time travel to the past,Copy !req
228. through wormholes
or any other method,Copy !req
229. is probably impossible.Copy !req
230. Otherwise,
paradoxes would occur.Copy !req
231. So, sadly, it looks like...Copy !req
232. time travel to the past
is never going to happen.Copy !req
233. A disappointment
for dinosaur huntersCopy !req
234. and a relief for historians.Copy !req
235. But the story's not over yet.Copy !req
236. This doesn't make
all time travel impossible.Copy !req
237. I do believe in time travel.Copy !req
238. Time travel to the future.Copy !req
239. Time flows like a river.Copy !req
240. And it seems as if each of us
is carried relentlessly alongCopy !req
241. by time's current.Copy !req
242. But time is like a river
in another way.Copy !req
243. It flows at different speeds
in different places.Copy !req
244. And that is the key
to traveling into the future.Copy !req
245. The idea was proposed
by Albert Einstein...Copy !req
246. over 100 years ago.Copy !req
247. He realized
that there should be placesCopy !req
248. where time slows downCopy !req
249. and others
where time speeds up.Copy !req
250. He was absolutely right,Copy !req
251. and the proof
is right above our heads...Copy !req
252. up in space.Copy !req
253. This is
the global positioning system,Copy !req
254. or GPS...Copy !req
255. a network of 31 satellites
in orbit around the earth.Copy !req
256. The satellites make
satellite navigation possible.Copy !req
257. But they also reveal
that time runs faster up hereCopy !req
258. than it does down on Earth.Copy !req
259. Inside each spacecraft
is a very precise clock.Copy !req
260. But despite being so accurate,Copy !req
261. they all gain around a third
of a billionth of a secondCopy !req
262. every day.Copy !req
263. The system has to correct
for the drift.Copy !req
264. Otherwise that tiny difference
would upset the whole system,Copy !req
265. causing every GPS device
on EarthCopy !req
266. to go out
by about six miles a day.Copy !req
267. You can just imagine the mayhem
that that would cause.Copy !req
268. The problem
doesn't lie with the clocks.Copy !req
269. They run fast because
time itself runs faster hereCopy !req
270. than it does down below.Copy !req
271. And the reason
for this extraordinary effectCopy !req
272. is the mass of the earth.Copy !req
273. Einstein realized
that matter drags on time,Copy !req
274. slows it down
like the slow part of a river.Copy !req
275. The heavier the object,
the more it drags on time.Copy !req
276. And this startling reality
is what opens the doorCopy !req
277. to the possibility
of time travel to the future.Copy !req
278. I admit this is a difficult
concept to understand,Copy !req
279. so let's take a simple example.Copy !req
280. This is the Great Pyramid
of Giza.Copy !req
281. It weighs over 40 million tons.Copy !req
282. And, like all heavy things,
it's actually slowing down time.Copy !req
283. The effect is small,Copy !req
284. billions of times smaller
than that of the earth.Copy !req
285. But if we exaggerate it
drastically...Copy !req
286. you can see the principle
at work.Copy !req
287. Close to the pyramid,
everything is slowed down,Copy !req
288. again, like the sluggish part
of a river.Copy !req
289. Here time itself
is passing slowerCopy !req
290. compared to how it's passing
further away.Copy !req
291. But what if people near
the pyramid look outwards?Copy !req
292. They must see
the opposite effect.Copy !req
293. Because they are slowed down,Copy !req
294. they must see time
in the distance as running fast.Copy !req
295. It's a simple result
of the mass of the pyramid.Copy !req
296. This distortion opens the doorCopy !req
297. to the possibility
of time travel.Copy !req
298. So what we need
to really travel in timeCopy !req
299. is something much more massive
than a pyramid.Copy !req
300. And I know just the thing.Copy !req
301. Right in the center
of the Milky Way,Copy !req
302. 26,000 light-years from us,Copy !req
303. lies the heaviest object
in the entire galaxy,Copy !req
304. hidden by a vast cloud
of gas and stars.Copy !req
305. It's a super-massive black holeCopy !req
306. containing the mass
of 4 million sunsCopy !req
307. crushed down into a single point
by its own gravity.Copy !req
308. The closer you get
to the black hole,Copy !req
309. the stronger the gravity.Copy !req
310. Get really close,
and not even light can escape.Copy !req
311. So it's wrapped
in a sphere of darknessCopy !req
312. 15 million miles in diameter.Copy !req
313. A black hole like this one
has a dramatic effect on time,Copy !req
314. slowing it down far more than
anything else in the galaxy.Copy !req
315. That makes it
a natural time machine.Copy !req
316. I like to imagine
how a spaceshipCopy !req
317. might someday
be able to take advantageCopy !req
318. of this spectacular phenomenon.Copy !req
319. Of course, it would first
have to avoid being sucked in.Copy !req
320. The trick, I think, would be
to aim just off to the sideCopy !req
321. so they'd miss it.Copy !req
322. They'd have to be on exactly
the right trajectory and speed,Copy !req
323. or they'd never escape.Copy !req
324. Get it right, and the ship
would be pulled into orbit,Copy !req
325. a giant circle
30 million miles in diameter.Copy !req
326. Here it would be safe.Copy !req
327. Its speed would be enoughCopy !req
328. to keep it from falling
any further in.Copy !req
329. If a space agency
were controlling the missionCopy !req
330. from Earth or anywhere else
far away from the black hole,Copy !req
331. they'd observe that
each full orbit took 16 minutes.Copy !req
332. But for the brave people
on board,Copy !req
333. close to this massive object...Copy !req
334. time would be slowed down.Copy !req
335. And here the effect
would be far more extremeCopy !req
336. than near the pyramid
or planet Earth.Copy !req
337. The crew's time
would be slowed down by half.Copy !req
338. For every 16-minute orbit,Copy !req
339. they'd only experience
8 minutes of time.Copy !req
340. 'Round and 'round they'd go,
experiencing just half the timeCopy !req
341. of everyone
far away from the black hole.Copy !req
342. The ship and its crew
would be traveling through time.Copy !req
343. Imagine they circle the black
hole for five of their years.Copy !req
344. 10 years would pass elsewhere.Copy !req
345. When they got home,
everyone on EarthCopy !req
346. would have aged five years more
than they had.Copy !req
347. The crew of the spacecraft
would return to a future Earth.Copy !req
348. They would have made a journey
not only in space, but in time.Copy !req
349. So a super-massive black hole
is a time machine.Copy !req
350. But, of course,
it's not exactly practical.Copy !req
351. It has advantages over wormholesCopy !req
352. in that it doesn't provoke
paradoxes.Copy !req
353. Plus, it won't destroy itself
in a flash of feedback.Copy !req
354. But it's pretty dangerous.Copy !req
355. It's a long way away.Copy !req
356. And it doesn't even take us
very far into the future.Copy !req
357. Fortunately, there is
another way to travel in time,Copy !req
358. and this represents
our last and best hopeCopy !req
359. of building a real time machine.Copy !req
360. Traveling through
the fourth dimensionCopy !req
361. will never be
a walk in the park.Copy !req
362. But it turns outCopy !req
363. there is a surprisingly
straightforward way to do it.Copy !req
364. You just have to travel
very, very fast...Copy !req
365. much faster
than even the high speedCopy !req
366. required to keep out
of a super-massive black hole.Copy !req
367. This is because of another
strange fact about the universe.Copy !req
368. There's a cosmic speed limit.Copy !req
369. 186,000 miles per second,Copy !req
370. also known
as the speed of light.Copy !req
371. Nothing can exceed that speed.Copy !req
372. I realize this sounds weird,
but trust me.Copy !req
373. It's one of the best-established
principles in science.Copy !req
374. Believe it or not, traveling
at near the speed of lightCopy !req
375. transports you to the future.Copy !req
376. To explain why,Copy !req
377. let's dream up a science-fiction
transportation system.Copy !req
378. Imagine a track that goes
right around the earth...Copy !req
379. a track
for a super-fast train.Copy !req
380. We're going to use
this imaginary trainCopy !req
381. to get as close as possible
to the speed of lightCopy !req
382. and see how it becomes
a time machine.Copy !req
383. On board are passengers with
a one-way ticket to the future.Copy !req
384. The train begins to accelerate
faster and faster.Copy !req
385. Soon it's circling the earth
over and over again.Copy !req
386. To approach the speed of lightCopy !req
387. means circling the earth
pretty fast.Copy !req
388. Seven times a second.Copy !req
389. But no matter how much power
the train has,Copy !req
390. it can never quite reach
the speed of light,Copy !req
391. since the laws of physics
forbid it.Copy !req
392. Instead,
let's say it gets close,Copy !req
393. just shy of that ultimate speed.Copy !req
394. Now something extraordinary
happens.Copy !req
395. Time starts flowing slowly
on boardCopy !req
396. relative
to the rest of the world,Copy !req
397. just like near the black hole,
only more so.Copy !req
398. Everything on the train
is in slow motion.Copy !req
399. This happens
to protect the speed limit,Copy !req
400. and it's not hard to see why.Copy !req
401. Imagine a child running forwards
up the train.Copy !req
402. Her forward speed is added
to the speed of the train,Copy !req
403. so couldn't she break the
speed limit simply by accident?Copy !req
404. The answer is no.Copy !req
405. The laws of nature
prevent the possibilityCopy !req
406. by slowing down time on board.Copy !req
407. Now she can't run fast enough
to break the limit.Copy !req
408. Time will always slow down
just enoughCopy !req
409. to protect the speed limit.Copy !req
410. And from that fact
comes the possibilityCopy !req
411. of traveling large distances
into the future.Copy !req
412. Imagine the train
left the stationCopy !req
413. on January the 1st, 2050.Copy !req
414. It circles the earth over
and over again for 100 yearsCopy !req
415. before finally coming to a halt
on New Year's Day 2150.Copy !req
416. The passengers
will have only lived one weekCopy !req
417. because time is slowed down
that much inside the train.Copy !req
418. When they got out, they'd find
a very different worldCopy !req
419. than the one they'd left.Copy !req
420. In one week,Copy !req
421. they'd have traveled
100 years into the future.Copy !req
422. Of course, building a train
that could reach such a speedCopy !req
423. is quite impossible.Copy !req
424. But we have built something
very like the train,Copy !req
425. at the world's largest
particle acceleratorCopy !req
426. at CERN in Geneva, Switzerland.Copy !req
427. Deep underground, in
a circular tunnel 16 miles long,Copy !req
428. is a stream
of trillions of tiny particles.Copy !req
429. When the power is turned on,Copy !req
430. they accelerate from zero
to 60,000 miles per hourCopy !req
431. in a fraction of a second.Copy !req
432. Increase the power, and the
particles go faster and fasterCopy !req
433. until they're whizzing
around the tunnelCopy !req
434. at 11,000 times a second,Copy !req
435. which is almost
the speed of light.Copy !req
436. But just like the train,Copy !req
437. they never quite reach
that ultimate speed.Copy !req
438. They can only get to 99.99%
of the limit.Copy !req
439. When that happens, they, too,
start to travel in time.Copy !req
440. We know this because of some
extremely short-lived particlesCopy !req
441. called pi-mesons.Copy !req
442. Ordinarily, they disintegrateCopy !req
443. after just 25 billionths
of a second.Copy !req
444. But when they are accelerated
to near light speed,Copy !req
445. they last 30 times longer.Copy !req
446. These particles
are real-life time travelers.Copy !req
447. It really is that simple.Copy !req
448. If we want to travel
into the future,Copy !req
449. we just need to go fast.Copy !req
450. Really fast.Copy !req
451. And I think the only way
we're ever likely to do thatCopy !req
452. is by going into space.Copy !req
453. The fastest manned vehicle
in history was Apollo 10.Copy !req
454. It reached
25,000 miles per hour.Copy !req
455. But to travel in time,Copy !req
456. we'll have to go
more than 2,000 times faster.Copy !req
457. And to do that,
we'd need a much bigger ship...Copy !req
458. a truly enormous machine.Copy !req
459. The ship would have to be big
to carry a huge amount of fuel,Copy !req
460. enough to accelerate it
to nearly the speed of light.Copy !req
461. Getting to just beneath
the cosmic speed limitCopy !req
462. would require six whole years
at full power.Copy !req
463. T-minus 10 seconds.Copy !req
464. 4, 3...Copy !req
465. 2, 1.Copy !req
466. The initial
acceleration would be gentleCopy !req
467. because the ship
would be so big and heavy.Copy !req
468. But gradually
it would pick up speedCopy !req
469. and soon would be covering
massive distances.Copy !req
470. In just one week, it would have
reached the outer planets,Copy !req
471. gas giants like Neptune.Copy !req
472. After two years,
it would reach half light speedCopy !req
473. and be far outside
our solar system.Copy !req
474. Two years later,
it would be travelingCopy !req
475. at 90% of the speed
of light speedCopy !req
476. and passing our closet
star system, Alpha Centauri.Copy !req
477. Around 30 trillion miles away
from EarthCopy !req
478. and four years since launch,Copy !req
479. the ship begins to travel
in time.Copy !req
480. For every hour of time on the
ship, two hours pass on Earth,Copy !req
481. a similar situation
to the spaceshipCopy !req
482. that orbited
the massive black hole.Copy !req
483. But there's more to come.Copy !req
484. After another two years
of full thrust,Copy !req
485. the ship would reach
its top speed...Copy !req
486. 99% of the speed of light.Copy !req
487. At this speed,
a single day on boardCopy !req
488. is a whole year of Earth time.Copy !req
489. Our ship would be truly flying
into the future.Copy !req
490. The slowing of time
has another benefit.Copy !req
491. It means we could, in theory,Copy !req
492. travel extraordinary distances
within one human lifetime.Copy !req
493. A trip to the edge of the galaxy
would take just 80 years.Copy !req
494. But the real wonder
of our journeyCopy !req
495. is that it reveals just
how strange the universe is.Copy !req
496. It's a universe where
time runs at different ratesCopy !req
497. in different places.Copy !req
498. Where the most extreme objects
imaginable, giant black holes,Copy !req
499. twist and warp
both time and space.Copy !req
500. It's a place where tiny
wormholes exist all around us.Copy !req
501. And where, ultimately,Copy !req
502. if we could develop
the right technology,Copy !req
503. we could use our understanding
of the laws of physicsCopy !req
504. to become time voyagers
through the fourth dimension.Copy !req