1:31:00
Yes. We're interested.
1:31:01
Then let me smoke a cigarette,
and I'll tell you.
1:31:13
Oh, thank God.
1:31:15
Hmm? All right, fine, look.
1:31:17
Look, we have to use
wave interference, okay?
1:31:19
Because one explosion
won't do it.
1:31:21
Think about stones in a pond.
1:31:23
You drop a large stone
into a pond,
1:31:25
you get a big splash,
1:31:26
and then that's it, it's over.
1:31:28
But drop a smaller stone,
wait until the ripples weaken
1:31:31
and drop another and another,
and another,
1:31:34
and fluid dynamics 101.
1:31:36
The ripples reinforce each other
in geometric progression.
1:31:39
Hm, the whole bigger than
the sum of the parts.
1:31:41
Then we'll have five
1:31:43
200 megaton explosions...
1:31:45
Instead of one big bang.
1:31:46
So, we hot-wire the nukes.
1:31:48
Yes.
1:31:49
And as one does,
1:31:50
we seed them
through the core...
1:31:52
at locations that have
to be accurate to the inch.
1:31:55
We detonate them in a sequence
that has to be accurate
1:31:58
to the millisecond...
1:31:59
then we outrun the biggest
nuclear shock wave in history.
1:32:03
Right.
1:32:04
Yeah.
1:32:06
I mean, that should be
fairly simple.
1:32:17
Destiny now should be
diverting to the central.
1:32:20
Final calibration
1:32:21
on both transmission systems...
1:32:28
Come on.
1:32:30
Cut the...
cut the rouge.
1:32:31
The red wire above the circuit.
1:32:33
Okay. Okay.
1:32:34
No, no, wait, hold it!
1:32:35
I'm sorry, cut it below.
1:32:40
Please...
1:32:47
Extensions A, B.
1:32:48
- Here we go.
- F, check.
1:32:49
Increase power to reactors
ten through 15
1:32:51
We're almost there, folks.