What are Magnetars? The Most Magnetic Objects in the Universe 

Neutron stars are my favorite period!!!

@@smittyb9418 I disagree, so therefore you are wrong sir! Magnetars reign king.

+Frrrrrrrrunkis yes please

Whoa... I"m putting that idea on my list o' topics. "How Would Aliens Fight?"

No... "How Would Aliens Fight Us?" That's better. :-)

We are proof that Aliens exist.

i think an advanced alien civilisation would take it chances with a Magnetar or even a supermassive black hole, what they would fear the most is if we fling them a few moaning and entitled SJWs!

agree ..... +1 subscriber here

+JimB make that one more

Subscribed to fraizer cain

This guy has no idea what he is talking about he is no Scientist like I am

If he becomes Doctor Fraser Cain. He would get them

forwarding this to all my favorite metal bands in hopes they make a song out of it lol

Voltage Drop the gravitational pull will rip any attempt to collect its energy into a thin strain of atoms

But you're still thinking within the realm of what we currently know, can measure, or prove. Things that are thought of as scifi may indeed be a reality some day. And that means truly harnessing the power of an object such as this. We seriously need to crack the code however on that pesky nuisance called quantum / particle physics.

jumpieva perfectly said. I agree

There have been a number of posts about interstellar travel on this blog, including one on the feasibility of an idea from Stephen Hawking regarding the use of Dyson spheres to absorb a star’s energy and focusing all this power to create a warp bubble, theoretical spaceships powered by artificial micro black holes, and a review of a very grounded relativistic rocket. And while most of these posts focused on how hard it is to get the energy necessary to bend space and time to allow for faster interstellar travel, as well as how hard it is to build an honest to goodness warp drive, this time I thought we’d do something a tad different and take a look at violent events in our universe to see which of them could provide either us, or advanced alien species with the energy necessary to warp time and space if we, or they, ever found a workable way to harness them. First, we need to establish a baseline. We need 1042 J at our disposal to start altering the flow of space itself and we need to be find an event that will release at least this much power very quickly and in one place. Sure, we could set up enough solar panels around enough stars and wait for billions of years until we store enough energy, but that’s wildly impractical even for the most advanced species out there. No, we need one burst that could be harnessed and channeled into creating a warp bubble, or fuel a relativistic rocket of nearly any size to over 95% of the speed of light so relativity could take over and remove the time limits on the trip. And that’s why we’re going to turn our attention to supernovas first and foremost. When massive stars that quickly burn a lot of fuel die, they release more energy than it would take to completely disintegrate our heavy, large Sun, and more than is thought to be required to make an interstellar trip. Hypernovas, which happen when a heavy star between 8 and 130, or 250 solar masses and above, collapse into a black hole. Suns that tip the scales at 130 to 250 solar masses will simply vaporize when they explode. A typical supernova could release as much as 1.2 × 1044 J and a hypernova can put out an average of 1046 J, between 100 and 10,000 times the energy we’d need to alter the expansion of space-time, respectively. With a power source like that, any warp ship could hurl itself across vast stretches of space at superluminal speeds. Of course the only question is how to harness all that energy and focus it into a beam just a few meters wide since supernovas cover a very wide area. Hypernovas might be more convenient since as newly formed black holes try to feed on the leftover stellar matter, they belch out extremely powerful beams of gamma rays in just two directions, focusing the energy with magnetic fields which twist like corkscrews. If they were focused even further by a hypothetical spacecraft riding along them, maybe, they could be used to summon a warp bubble and pave us a way to another star. Unless the spacecraft in our scenario come way too close to a beam and get fried, or even worse, pulled into the black hole’s maw by its powerful tidal forces. It would be awfully hard to try and carry out an interstellar mission that way And there’s another potential energy source for a would be warp ship, capable of producing up to 2.7 × 1048 J with only a slight twitch. We’re talking about a magnetar, a neutron star with a magnetic field over a quadrillion times stronger than that of our planet, and a curst under so much pressure and with such a high density, that just a centimeter of movement during a quake causes a massive magnetic line reconnection and an eruption of energy strong enough to be felt some 50,000 light year away. Actually, we already felt the shockwave of an immense quake on magnetar SGR 1806-20, which is halfway across the galaxy from us. With quakes more than two million times greater than a warp ship’s baseline, magnetars could power even the biggest craft with just one eruption. However, since stars which can produce hypernovas or leave magnetars are in the minority of the galaxy’s population, the craft in question would need to be able to get to them in the first place. Plus, the magnetic fields measuring 10 billion tesla could easily fry any spaceship and instantly kill its occupants if the craft gets a little too close to one of these hyper-magnetized stellar zombies. While trying to harness the power unleashed by dying and dead stars might not be practical anytime soon, the numbers do show that there is enough energy out there to make an interstellar trip should we find out how we can capture and manage it. But hopefully there’s a simpler way out. The baseline figure for a warp drive given in this post relies on the idea that all this energy at very high densities would speed up the ongoing expansion of the cosmos locally and temporarily. However, what if there’s another way to trigger a warp bubble? What if it takes a lot less energy than we think due to physics we don’t yet know? The only way to know is to experiment with extremely high energy phenomena and find out for ourselves through trial and error Hope this helps to answer your question Voltage Drop

What about using solar panels aimed as a supernova?

shrappnel21 Yeah its not like you can travel in the speed of light. But even if you did you would find yourself pretty slow

shrappnel21 You have no idea if you’ll even have enough freedom to do such thing as a ghost.

this guy makes a comment and 2 people decide to shit on his parade, bet they're fun at parties

I was thinking the same, just watching from a save spot as a ghost and teleporting around the universe would be cool.

same here! we should all meet up and go chill by some awesome astronomical events! I've always wanted to see a black hole devour a planet/star

Thanks!

Yup. :-)

Thanks, I'm glad you enjoyed it.

Thanks!

What other good channels about space do you know? I love Fraser's, but I'm looking for even more :p

+Jesse Pinkman SciShow Space and Sixty Symbols have some interesting videos :)

I've definitely got a few more black hole episodes planned, Here are some on my list: How Cold are Black Holes? Does Every Galaxy Have a Black Hole? But if you have some specific topics, let me know.

Jesse Pinkman Sorry for the delayed reply but I have a few recommendations. These channels cover many, many topics, including space, Standard Model physics, General Relativity, as well as other scientific fields of interest if you find yourself rabbit trailing about like I do.. ***** PBS Space Time SciShow Space ***** Veritasium It's Okay To Be Smart Love these channels.

***** Officially excited with this news. Black holes are the most intense... THINGS... in the universe and they absolutely boggle the mind. I didn't have any questions planned, but I do not recall some curiosities being satiated. How old is the oldest black hole? How long would it take a probe with our fastest current technology to reach the closest black hole? What kind of technology would be needed to get to, observe, and at what point would the most beastly tech possible stop beaming signals back? However, I have other questions. Will we ever develop the technology to somehow see all the way (or at least most of the way) through the cosmic dust disk of the Milky Way? Sorry for all the typing. And, again, your videos are awesome!

Welcome to my island. I live about halfway up the island, in Courtenay.

Thanks!

I'm kind of running out. There's one more super exotic object, where a massive star consumes a neutron star.

A magnetar is a type of neutron star with an extremely powerful magnetic field.

I don't know if it's a large part. It's amazing that meteorites from Vesta have been discovered on Earth. www.nasa.gov/mission_pages/dawn/multimedia/pia15605.html

Oh, spoiler alert. :-)

So what's the difference between a magnetar and a pulsar

Brittany Rozenberg Hollander thank you for the info

The nuclear fusion in a star causes the sun to want to expand, just as a bomb explodes and expands outward. However the gravity of all that mass is trying to pull said mass as close to a single point as it can. A stable star is one that finds the balance between the push outward and the pull inward. As a star loses it's fuel in the core, the gravity can no longer keep the explosion contained, so it expands and mass is lost to space. The Hydrogen fuel is turned to Helium. A heavier element. So at some point the gravity becomes stronger than the explosion because it has lost so much mass, and the fuel becomes heavier. When gravity becomes so strong it will pull all the mass back to as close as it can to the single point. Well all that created heat and pressure, and if it is a big enough star with a lot of mass, the resulting explosion is a supernovae. So in a space warping understanding, the gravity from all the mass of the star is pulling everything it can to the single point at the bottom of that space time fabric.The explosion from the fusion is pushing it away from that point.

Agreed.

Indeed.

I like that. An episode about the motions of stars. I'll put that on my list.

Oh, yeah, probably. :-)

Aww thanks, make sure you tell your friends. :-)

Whoa. :-)

I think you're conflagrating completely different concepts.

I'm glad to get to your suggestion. Keep them coming.

Will do, I'll add that to the list.

Neutrons themselves are unstable, so they'd dissipate pretty quickly.

How dangerous would it be to be near that infamous teaspoon of neutron star matter?

Assuming you could survive the gravity and radiation, you still wouldn't fall through the crust due to the degeneracy pressure between the neutrons in your atoms and the neutrons in the star.

Prove it.

Noneyalls Biddness He/ her already did

I'm the publisher of Universe Today, which is a space news website that I've been running for 17 years. I'm also the co-host of Astronomy Cast with Dr. Pamela Gay. In the last few years I've been working to bring the space news to the RU-vid. I'm glad my supernovae pronunciation meets your needs, however, I'm guaranteed to mangle "globular clusters".

There could be a few in-between sizes like quark stars, etc.

The point is, you don't want to get close.

Yes, that's why we see the enormous jets coming out of black holes which are actively feeding.

@@frasercain Thanks Fraser!

Magnetars are a type of neutron star, while black holes are even more dense.

You'd have neutrons, which are actually pretty unstable and would decay.

Yeah, there's no other place like it in the Universe.

+Fraser Cain black holes? ^_^

Damian Reloaded Is a magnatar's magnetic field stronger than most black holes magnetic fields?

Sarah Szabo It's said that black holes' magnetic field can exert a force as strong as its gravitational pull. But I guess it depends on the mass of the blackhole and the mass of the magnetar.

Fraser Cain Hey Fraser, could a blackhole be "unwrapped"/"sucked out" by another black hole gravitational pull? Here is where the singularity is sort of stupid cause it implies that a microscopic blackhole's singularity would wrap space time as much as a super massive one. Otheriwise we could picture them as two holes one deeper than the other and as their warped spaces coincided at some point mid way of the deepest hole the smaller hole's "bottom" would be leveled with the largest hole's "inner surface" and would spit out it's "guts" down the more massive one... or get ejected? O_o

Very well, thank you.

Whoa, take that Bill O'Reilly!

The magnetic field decay powers the emission of high-energy electromagnetic radiation, particularly X-rays and gamma rays Hope this helps to answer your question Mitch Craine

Thanks a lot!

When the cracks happen you get flares, huge blasts of X-ray radiation going out into space.

Here you go: ru-vid.com/video/%D0%B2%D0%B8%D0%B4%D0%B5%D0%BE-ndS3kIWrjk8.html

+Rayman711 that's that thing it wasn't. it was way to bright to be a planet.

+Snowy The three brightest astronomical objects in our sky, in order, are Sun, Moon, and Venus. If the object was brighter than Venus and you're sure it wasn't the Moon or Sun you might have been looking at an aircraft (balloon or helicopter). If it was moving fast just after sunset or just before sunrise it could have been a satellite, possibily even the ISS. The ISS is still not as bright as Venus.

+Lenard Segnitz alright thank you

That sounds like Venus to me too. When Venus is at its closest and brightest, it's incredibly bright in the sky.

Magnetars are almost black holes. If you add more mass to a magnetar, it'll turn into a black hole. So you can't really compare them.

That can happen around rotating blackholes due to an effect called "frame dragging".

Just watched Fraser Cain's video on how fast black holes can spin. Conveniently it answered my question. That is assuming of course that black holes are fastest spinning entities in the universe. I suspect that is the case but don't know. In which case the answer is no - it cannot happen but it can get to 84% the speed of light. Any faster and it exposes the singularity and that breaks physics he says.

It's a measure of magnetism. More powerful magnetic field... more gauss.

There's a different object. We talk about them a bit in this video: ru-vid.com/video/%D0%B2%D0%B8%D0%B4%D0%B5%D0%BE-HLKco7pC4qI.html

Thanks, I'll put that on my big list o' ideas.

OH MY GOD ITS FRAIZER CAIN

A magnetic field drops off significantly over distance, so it's not going to be able to reach very far. Also, remember that it all depends on polarity. Same poles repel, opposite poles attract.

+Fraser Cain Thank you for the answer!

I always think of them as minotaurs that stick to refrigerator doors.

Got to catch them all?

*I always think of them as minotaurs that stick to refrigerator doors* @Mitch ...and do steroids

A magnetar is a type of neutron star with an extremely powerful magnetic field.

Me too...nah not really I played MTG a real man's game.

Shouldn't that be TLDW?

There aren't any which are dangerous, but we should definitely learn more about them.

No... thanks for the reminder.

A magnetar is a star that already exploded. This insane object is the remnant you get after.

We've already got a fake death metal conspiracy band, Tinfoil Hate. ru-vid.com/video/%D0%B2%D0%B8%D0%B4%D0%B5%D0%BE-mDT8xDtliS8.html

Saw Tinfoil Hate back in '93, best live show ever. Too bad they broke up after the guitarist got electromagnetic hypersensitivity and went into hiding. Speaking of conspiracies, does anyone else hate how your Google Now news feed results get plagued by stupid alien ufo conspiracy blog posts when all you want is real science space news?

Yes, we got hit by the blast from a magnetar back in 2004, it made the Earth's magnetosphere vibrate briefly. It didn't cause any long-lasting effects, though.

There's a couple of possibilities for travelling to another star system in one human lifespan: suspended animation and life extension. Neither is current tech. If you're keen to go interstellar and you're richer and smarter than Musk then I'd bet on photonic propulsion that Breakthrough Starshot is proposing, suspended animation and life extension. Even then Alpha Cent is still going to be hundreds of years travel time away. Then ask yourself... why bother? For at least a few billion years more our solar system can host humanity with a population into the quadrillions. Interstellar colonies are interesting but they can never provide economic payback. Simple conversations will be impossible. Import/export of materials will never be economic or make any other kind of sense. The only argument for interstellar is to guard against extinction in the event of star-system-wide disaster like collision with a black hole or neutron star.

Here's a playlist with a bunch videos on that topic: ru-vid.com/video/%D0%B2%D0%B8%D0%B4%D0%B5%D0%BE-sGeWxYpA94U.html

it would be dangerous around 800,000km away and would kill us all at 10,000km.

Whoa, I'll check it out. I did this video a long time ago. :-)

Any ways u explained pretty well I will be waiting for more of ur interesting vids