About this transcript: This is a full AI-generated transcript of Stationary Anomaly No One Can Explain (S7) — The Secret of Skinwalker Ranch from HISTORY, published July 2, 2026. The transcript contains 1,641 words with timestamps and was generated using Whisper AI.
"Man, those look cool. Cameron, it's great to have you back, man. We've had a lot of instruments, probably 30 different instruments at this point, detect some kind of weirdness that shouldn't be there, radio signals, and even LIDAR, showing that there's a bubble that's centered right there on those..."
[00:00:00] Speaker 1: Man, those look cool. Cameron, it's great to have you back, man. We've had a lot of instruments, probably 30 different instruments at this point, detect some kind of weirdness that shouldn't be there, radio signals, and even LIDAR, showing that there's a bubble that's centered right there on those towers. Right. Although we can't see it with the naked eye, our most recent experiments this year have already shown us evidence that the bubble boundary is about 120 feet thick. Your TV's through the boundary. It's almost like it's not even moving. And when we try to pass our instruments through it, the boundary obstructs them like some kind of force field.
[00:00:41] Speaker 2: Look at the way it changed directions as we got through. Yeah.
[00:00:45] Speaker 1: We've also seen similar things happen at a spot 31 feet above the triangle. In 2022, an odd shape we call the blob appeared in our data and seemed to cause a rocket to explode when it flew through that airspace.
[00:00:59] Speaker 3: Look at that.
[00:01:01] Speaker 1: And that's not the only time the blob affected our experiments. When we recently shot smoke through that area...
[00:01:06] Speaker 3: That's crazy!
[00:01:08] Speaker 1: Look at the boundary it makes. The smoke appeared to move around something that had the same shape as the blob. So tonight, we're hoping Cameron can help us make the blob appear again so we can identify what in the world it could be and also find out if it's connected to the bubble.
[00:01:26] Speaker 4: Cameron, tell us what you brought for us. So I've got two Tesla guns this year, about 300,000 volts each. Makes about four to five foot sparks. Okay. The Tesla coil needs a ground connection for optimal operation. If you don't have a good ground, the arcs are kind of drawn back towards you.
[00:01:45] Speaker 1: There's going to be two phases to this Tesla coil experiment. For the first phase, we'll raise Cameron to the 31-foot level. There, he'll use one of the Tesla coil guns to blast electricity through the so-called blob region directly towards one of the 30-foot towers that we have at the triangle. The tower will act like a grounding rod that should attract the electricity toward it in a straight path. If the direction deviates in any way, it could be evidence of the blob. And if we're lucky, the electricity might make it appear long enough for us to get better images of it. For the second phase, we'll set up another metal grounding rod at the southern bubble boundary. That way, Caleb can use the second Tesla coil gun to shoot electricity directly at the boundary while Cameron simultaneously fires at the blob. That should help us see if there's any connection between the bubble and the blob. To document tonight's experiment, we'll be using several high-speed cameras staged all around the triangle and the southern bubble boundary. We've also set up several directional antennas at the triangle, which we'll feed into our spectrum analyzers. Caleb and Jim, y'all ready? Yeah. For the first stage of the experiment, we broke up into teams. Thomas and Cameron will be in charge of firing the Tesla coil gun at the 31-foot mark where we first saw the blob. Caleb, Jim, and I will be at the southern bubble boundary to look out for more signals. And Eric and Sam will be monitoring everything from the science station near the triangle. We're about in place. If you're ready to send Cameron up and do the first test, we can copy you, Travis.
[00:03:26] Speaker 4: All right.
[00:03:28] Speaker 1: Going up.
[00:03:38] Speaker 2: As we are energizing the space above the triangle, we are looking to collect contiguous data from both the bubble boundary and the blob to learn as much as we can about the connection between the two. Powering up. Okay, Travis, guys, be advised, Thomas and Cameron look like they're just about in position. All right, let's go ahead and start firing. All right, he's firing in
[00:04:08] Speaker 3: three, two, one, go. Oh, yeah, I can see it. Heck, yeah, I can see it from here. We can see it from here. And when it started, the 33 megahertz thing started pulsing up and down.
[00:04:27] Speaker 1: Look at that. Yeah. It definitely made the signal stronger.
[00:04:32] Speaker 2: So we're looking for effects that are not normal. In this case, an electric discharge at the center of the triangle would not be expected to affect a 33 megahertz signal. What could cause that? The blob? I don't have a good explanation for that. Stop.
[00:04:53] Speaker 1: Eric, I can see when he stopped, the beat's stabilized, but when he's firing it, they start bouncing like crazy.
[00:04:59] Speaker 2: Yeah, copy that.
[00:05:00] Speaker 1: I saw a corresponding activity here at the triangle. The strength of that 33 megahertz signal got stronger right when Cameron was firing his Tesla coil gun at the spot where the blob has been seen. For the next phase of our experiment, we're going to fire two Tesla guns simultaneously, both at the blob and bubble boundary. We are ready to do the simultaneous test. Copy, Travis. Thomas, give us a countdown to fire the Tesla guns. Copy that.
[00:05:30] Speaker 3: We are in position, so whenever you're ready. All right. In five, four, three, two, one, fire. Fire, Caleb.
[00:05:40] Speaker 2: Dude, look at that. Okay, you see what's happening with the 33 over here? Oh, yeah. That signal is pulsing with higher strength again.
[00:06:03] Speaker 3: Five, four, three, two, one, stop. Stop! Eric, are you seeing anything on the sensors at the triangle?
[00:06:15] Speaker 2: Yes, we are seeing a lot of hopping on the 33 on both instruments.
[00:06:21] Speaker 1: Yeah, we're seeing a lot down here as well while the guns are firing. Copy that. Next up, we're going to fire some rockets to try and make the blob appear again. First, we're going to aim exactly for the spot at 31 feet where we first saw the blob. then we're going to fire one at the southern bubble boundary to explore a possible connection between the blob and the bubble. And finally, we'll launch rockets in both places at once.
[00:06:51] Speaker ?: Okay,
[00:06:52] Speaker 3: fire away, comma. Copy that. Three, two, one. There it goes. Whoa, that one just changed direction.
[00:07:04] Speaker 2: For such a calm night, it sure veered off there at the end.
[00:07:08] Speaker 3: Yeah, and it fell rapidly suddenly once it got outside the bubble.
[00:07:13] Speaker 2: I can see it coming down now. You guys, from my perspective, looking through the camera assets at the south tower, it looked like it took off towards the east. Do you confirm?
[00:07:26] Speaker 4: Yeah, Eric, that's what I saw.
[00:07:29] Speaker 1: Well, the rocket didn't explode, and no one reported seeing anything show up where the blob appeared before. But it was curious that the rocket veered away from that area.
[00:07:38] Speaker 3: Second attempt in five, four, three, two, one.
[00:07:48] Speaker 1: Okay, that was a good launch. Well, that seemed to work. Hey, look at that. Signals kind of come back pretty strong. That 33 megahertz signal spiked stronger than we've seen it all night. So if it's coming from the blob like we suspect, could that mean that shooting a rocket through the bubble boundary somehow triggered a response from the blob? Man, that was some unusual stuff happening. Mm-hmm. I think we got a lot of data. We still got to go
[00:08:16] Speaker 2: through the high-speed video. So we wrap it up and get back to the command center.
[00:08:21] Speaker 4: I appreciate you bringing your cool toys out here. I mean, they're more than toys, but... Me too. I enjoyed it. Thank you so much.
[00:08:27] Speaker 3: All right.
[00:08:31] Speaker 2: This is from the first test at the tower at the center of the triangle. What do you say? I just play it through at regular speed? Yeah.
[00:08:43] Speaker 1: Whoa. Look how many times it does it. hit the grounding rod.
[00:08:48] Speaker 2: Exactly. You know, I understand that there's going to be some variation each time, but, you know, when you're that close to that grounding rod, they should always be hitting the grounding rod. Right.
[00:09:01] Speaker 1: Oh, wait. Back at it. That was a good one. Okay. Now, see, that one, it went way... Like, it was avoiding the tower.
[00:09:08] Speaker 4: Like it's turning away from.
[00:09:09] Speaker 1: Yeah. So what
[00:09:10] Speaker 2: is attracting the arc? I don't know. I'm just... I don't know. I don't know what to think. I mean, that doesn't make any sense. We should probably watch the launches themselves. So let me take us to the first launch at the Triangle. All right. There we are. Now, right there, you're at the height of the tower. That's right. So this rocket is headed essentially straight up at this point. Yes. Yeah. So again, straight up. And the same... Immediately it turns.
[00:09:41] Speaker 1: Now, there was no significant wind.
[00:09:43] Speaker 2: And if that was wind caulk, you'd see that contra right there shooting off to the south. Yep. You're right. Where's the turn? It's right... Right there. ...here, where the Tesla coil gun arcs curve upward. Right there. All right. All right. So let me take us to the next launch. So again, straight up. And let's see. Immediately it turns. Same place. No way. All right. Look at what's going on here. Why?
[00:10:16] Speaker 1: Zoom in on it, too. All right. Dive in here. Okay. Oh, stop. Look at that rocket. It was teetering again. There it is. Oh, yeah. The motor was literally pushed about a foot. Look at that. It's the exact same spot. This is absolute evidence that something hit the rocket right there. What are the chances that two different rockets veered off in the exact same spot and that they both teetered like something bumped them in midair? That cannot be a coincidence. Clearly, there was something with a physical presence in that spot. Now, we just need to figure out what it actually is.
[00:10:55] Speaker ?: We'll see you next time.