Randall Carlson

One time it peaked right around late October, early November. Interestingly, right around Halloween. And that is the fall time torrids. And during that episode, when Earth crosses the stream, and you actually look up the stream, you're looking out towards the constellation of Taurus, the bull. That's why it's called the Taurids.

One time it peaked right around late October, early November. Interestingly, right around Halloween. And that is the fall time torrids. And during that episode, when Earth crosses the stream, and you actually look up the stream, you're looking out towards the constellation of Taurus, the bull. That's why it's called the Taurids.

Well, then that stuff circulates around the sun, and then the earth crosses the stream after it's made its perihelion passage, which is closest passage to the sun.

Well, then that stuff circulates around the sun, and then the earth crosses the stream after it's made its perihelion passage, which is closest passage to the sun.

Well, then that stuff circulates around the sun, and then the earth crosses the stream after it's made its perihelion passage, which is closest passage to the sun.

That stuff, picture it, it's going in, it's passing close to the sun, it's coming back out, and now Earth is crossing it, but it's very difficult to see because you're now looking in the direction of the sun because this stuff is coming from behind the sun, whereas in the fall time, you're looking in the opposite direction.

That stuff, picture it, it's going in, it's passing close to the sun, it's coming back out, and now Earth is crossing it, but it's very difficult to see because you're now looking in the direction of the sun because this stuff is coming from behind the sun, whereas in the fall time, you're looking in the opposite direction.

That stuff, picture it, it's going in, it's passing close to the sun, it's coming back out, and now Earth is crossing it, but it's very difficult to see because you're now looking in the direction of the sun because this stuff is coming from behind the sun, whereas in the fall time, you're looking in the opposite direction.

And the radiant point, the point from which this debris appears to be emanating, is almost a bull's eye on the Pleiades, which is the shoulder of the bull, which leads us into some very interesting symbolism, ancient symbolism about the bull.

And the radiant point, the point from which this debris appears to be emanating, is almost a bull's eye on the Pleiades, which is the shoulder of the bull, which leads us into some very interesting symbolism, ancient symbolism about the bull.

And the radiant point, the point from which this debris appears to be emanating, is almost a bull's eye on the Pleiades, which is the shoulder of the bull, which leads us into some very interesting symbolism, ancient symbolism about the bull.

And, okay, so then on July, June 30th, July 1st is when the summertime torrids, and interestingly, the Tunguska event, which you've probably heard of, right? 1908, occurred on June 30th, 1908, early in the morning. And eyewitness accounts have pretty much been able to place it as coming from the direction of the sun. So the date is auspicious because that's the peak of the summertime torrents.

And, okay, so then on July, June 30th, July 1st is when the summertime torrids, and interestingly, the Tunguska event, which you've probably heard of, right? 1908, occurred on June 30th, 1908, early in the morning. And eyewitness accounts have pretty much been able to place it as coming from the direction of the sun. So the date is auspicious because that's the peak of the summertime torrents.

And, okay, so then on July, June 30th, July 1st is when the summertime torrids, and interestingly, the Tunguska event, which you've probably heard of, right? 1908, occurred on June 30th, 1908, early in the morning. And eyewitness accounts have pretty much been able to place it as coming from the direction of the sun. So the date is auspicious because that's the peak of the summertime torrents.

And the position in the sky is where you would expect to see a torrent meteor appearing to emanate from. So that is my, that doesn't, it's not proof, but it makes a strong circumstantial case that the Tunguska event of 1908 was a member of the torrent streams. And there's a group of British astronomers that have been studying cometary and the evolutionary life cycle of comets for many decades.

And the position in the sky is where you would expect to see a torrent meteor appearing to emanate from. So that is my, that doesn't, it's not proof, but it makes a strong circumstantial case that the Tunguska event of 1908 was a member of the torrent streams. And there's a group of British astronomers that have been studying cometary and the evolutionary life cycle of comets for many decades.

And the position in the sky is where you would expect to see a torrent meteor appearing to emanate from. So that is my, that doesn't, it's not proof, but it makes a strong circumstantial case that the Tunguska event of 1908 was a member of the torrent streams. And there's a group of British astronomers that have been studying cometary and the evolutionary life cycle of comets for many decades.

And they conclude that, yes, periodically, maybe once every 5,000 to 10,000 years, a very large comet, can get captured into a sub-Jovian orbit, meaning within the orbit of Jupiter, it'll begin to undergo a hierarchy of disintegration events and it will litter Earth's orbital path with clusters of debris. Eventually that debris will spread out uniformly throughout the orbital path, but early on

And they conclude that, yes, periodically, maybe once every 5,000 to 10,000 years, a very large comet, can get captured into a sub-Jovian orbit, meaning within the orbit of Jupiter, it'll begin to undergo a hierarchy of disintegration events and it will litter Earth's orbital path with clusters of debris. Eventually that debris will spread out uniformly throughout the orbital path, but early on

And they conclude that, yes, periodically, maybe once every 5,000 to 10,000 years, a very large comet, can get captured into a sub-Jovian orbit, meaning within the orbit of Jupiter, it'll begin to undergo a hierarchy of disintegration events and it will litter Earth's orbital path with clusters of debris. Eventually that debris will spread out uniformly throughout the orbital path, but early on