Limits of Kardashev Scale, Artificial Stars, Can We Touch Jupiter | Q&A 177

It's not about running out of room, it's all about earth being far too dangerous a basket in which to leave all of mankind's eggs. As Larry Niven said: "There are things in this universe that are so dangerous the only way to survive them is to be somewhere else when they happen." or words to that effect. And we're not in charge of the timetable. So let's not waste any more time fiddling

The advantage of using an external laser is that the thrust it delivers to a sail/spacecraft is derived from absorbing the momentum of the photon as it arrives and getting that same thrust again when that photon is reflected from the sail. Using an onboard laser only works by using it as direct thruster by pointing it away from the spacecraft. That only delivers half the thrust of an external laser though since the first step of absorption does not happen.

The Kardashev scale originally was meant to describe the power of advanced civilizations, in particular, those that have achieved the ability of space flight. It uses a geometric progression based on the amount of power accessed by the species as it grows. The earliest emerging civilizations don't appear, except as fractional numbers, because their activity is not very significant on a cosmic scale. These only get a full count when they might be noticed by a theoretical "outside observer," as you will soon see. I am adding a few extra levels to the original three, since there was little use for that as a measuring stick to evaluate gradual progress. Let me start near the beginning, when the culture starts to reveal its potential significance.
Type One: "Novice"
(revised) intensive use of more than half of the planet's habitable surface area for urban dwelling, agricultural production, industry or resource extractive purposes. Oceans, ice caps and deserts are not typically considered habitable, although some oases may exist.
Type Two: "Unstable"
(revised) threatening the ecological health of the planet by careless practices, whether by stripping resources, excessive pollution, or loss of secondary species.
Type Three: "Emergent"
(revised) has acquired sufficient technology to make space flight and colonial ventures possible. Potential for mass self-destruction demands a quest for coexistence.
Type Four: "Maximized"
(original) Type One: intentional use of all the insolation received by the planet for food or power.
(revised) has accessed or made feasible all of the resources and energy available on the planet. Approaching a sustainable global regime for shared resources and political consensus or a tolerant balance of powers.
Type Five: "Outbreak"
(revised) has established self-sufficient populations, with trade routes, in multiple extra-planetary colonies, and continuing to spread. Industrial development of free-floating habitats, space infrastructure and specialized project construction begins.
Type Six: "Established"
(revised) has explored the entire stellar system in sufficient detail to map a super-majority of its geography and resources. Technological proficiency allows pioneers to colonize the frontiers at will, and choose political independence.
Type Seven: "Expansive"
(original) Type Two: intentional use of all of the energy output of the star for habitation and industrial purposes.
(revised) complete access to all of the resources and energy available within the star system, including its planets, moons, and smaller satellites. Experimental robotic ships explore the nearer neighboring star systems and the conditions of intermediate space.
Type Eight: "Arrival"
(revised) first colonies established around other star systems. Ultrahigh-energy physics experiments explore the potential for travel at relativistic or supra-lightspeed velocities.
Type Nine: "Manifesto"
(revised) seeding the stellar neighborhood with many colonial ventures, discovering the range of variety of system formation and geography, and revealing the frequency of the origins of life.
Type Ten: "Epitome"
(original) Type Three: acquisition and use of the entire energy output of all of the stars in the whole galaxy.
(revised) technological capacity to range at will throughout the galaxy, planting colonies, developing resources and tapping unlimited energy as needed to sustain the presence and growth of the species in all its various iterations. Sophisticated modes of long distance travel and self-contained habitat ships allow for sporadic attempts to surpass galactic boundaries.
Conclusion:
As you can see, the original version of the Kardashev scale assessing the power use of a space-faring civilization was excessively over-simplified. Having only three tiers, it did not allow for any detail or description of the intermediate stages of development. At every stage, it required an "all or nothing" obvious achievement in order to advance to the next rung of the ladder, and totally lacked any descriptive or predictive powers.
This revised version does have more capacity for descriptions, and also allows for a certain amount of flexibility. It can be used to note and measure some fractional attainments, and can accept some skipping and mixing of non-linear development patterns, while still offering some definite levels of meaningful achievement for comparisons.
Nor does the new scale have to terminate at the edge of the galaxy, or proceed to such degrees as beggar the imagination. At Type Eleven, the colonization of another galaxy, and at Type Twelve, the colonization of the whole local group of galaxies is enough, while further expansion into the greater Super Cluster and beyond may be designated by more numbered levels. These do however go so far beyond the imagination that those technologies would likely appear magical to our sensibilities. And any further would simply involve the acquisition of the entire knowable Universe.
It seems probable that, at some point, even before we claim the far reaches of our own galaxy, we are likely to discover another intelligent, civilized and space-faring species and learn not only whether the scale is truly useful, but have the realization that we must share the Cosmos with our neighbors. And that will be a clear answer to one of the oldest questions we have ever thought to ask.
If you wish to adopt and promote this revised scale for the comparison of developing civilizations and space-faring technology, you may be my guest. I ask only that you acknowledge and attribute it to its source, and name it the "Makarios Scale." Makarios means "Blessed" in greek, and any species and civilization that this scale would measure should be well aware of their blessings.
And I thank you for your patience and kind consideration. Shalom. I published this in September 2020, in my own obscure little blog:
www.emunahechad.blogspot.com

I try and catch the live q&a show but usually I’m working. Glad you post these and interviews as well.

I really like the new thumbnails!

QUESTION: Do gravitational waves potentially have a spectral component to them that can be used to identify distance, mass and orbital information? Let's say LISA is powerful enough to regularly detect the hum of massive objects, what would those frequencies tell us? Is it even possible with LISA or would we need an interferometer that literally orbits outside of the solar system to get precise enough? As always, thanks for the excellent shows.

Thanks for the video Patrick Moore.

I agree how you are saying we aren't going to run out of space and resources on earth. Our solar system has so much to explore before we begin to explore beyond our solar system.

If the time of the universe reaches infinity before you cross the event horizon of a black hole, wouldn't this imply that the black hole would evaporate (Hawking radiation) before you could enter it?

Best show on utube.

I love the notion of the great filter, although it is a scary theory.

Cheerful episode today!

I could definitely see a time billions upon billions of years from now when stars are dying out and no new ones are forming that if we're still around we might create artificial stars mainly out of nostalgia.

thanks

What if the universe is a Klein Bottle? If that were so, the universe would continually fold back around turning and pressing back into itself creating a forever cycle of rebirth and renewal.

Hi Fraser, when you were talking about Venus it got me thinking. Is there a 'geo'-stationary orbit you could put a satellite in around Venus? Given its day is so long would the satellite need to orbit at some extreme distance if it is even possible?

If you stood on a sphere the diameter of the sun, how far away would you see the horizon? How does this compare to on Earth?
P.S. plz don't try this. I just want a comprehendable comparison on the sizes

25:02 A laser would totes provide a net thrust: Whether just shining the light out the back of the craft or "blowing the light fan at the sail" (assuming it's a reflective sail), it's a net release of energy in one direction. The latter case is just like a Shkadov thruster.
(A reflected photon's momentum is being _reversed_ and so provides _twice_ the force of a merely "stopped" or "emitted" photon. -- minus any imperfections in the reflection).

Hey Fraser
regarding solar sails, sending them is "easy' but how do they stop when they get "there"?

Maybe it is possible to control a star so that it ends up being a lump of iron by feeding it fuel in a way that keeps it from going supernova but keeps it burning until the very end of fusion energy. And have a Dyson sphere around it and make the very most efficient use of all the energy. You also get radiation energy due to the fuel falling into the gravity well as a tiny extra bonus.
I can't imagine how fusion reactors would ever work for anything other than fuel that burns very fast, D+T is the fav. The burn rate in a reactor has to at least compensate radiation losses and I can't imagine a way to keep those down much. Radiation losses also go up sharply for heavier ions. In a star the radiation is reabsorbed and doesn't escape.

Is a laser sail not very inefficient. How much of the power put into the laser will become thrust?

Could we build a endlessly long chain that is continually being built and added to, and then put the running end into a black hole? What would happen, could we use it wind up our grandfather clocks?

I agree, that at this moment, it is not really feasible to colonize space. I think that not building towards that goal is foolish though. There are many things beyond our control that could make earth, and our solar system, uninhabitable sometime between now and the far future. There are individual humans with the ability to end human civilization if not humanity itself right now. I think that terraforming planets is not the way to go, if for no other reason that the inefficiencies involved. I think that building large, mobile, space habitats should be the goal. We are several hundred years from this goal at least with the current energy/time/funds humanity is investing in space research and technology, but I think it is achievable.

I think what makes sense about space colonization is encapsulated in cliodynamics. If Earth's sundry elites all experience competition from potential elites, and that is the ultimate cause of warfare, then settling space with rotating space habitats means we can have an interplanetary-Oort-Cloud-Nomadic shatterzone that KEEPS EXPANDING and can draw in peoples at superior numbers to even instances of relatively open migration, because the habitats will be spread out and encapsulated in a very different way from Earth's countries, so the killer feature is that you can have your culture, whether 'authentic' or synthetic, not threatened by a majority culture in the place you expand to, and so effectively space settlement becomes a siphon for discontent... So it's not just ideas, it's also long-term peace on Earth, we simply set up something dirt-cheap to facilitate emigration like launch loops, and then we implement various 'push' policies, the goal should be settling billions off-world, and in so doing make it possible for Earth's countries to have the stability needed to actually make things worthwhile.

Yep, have fun and learn along the way : )

The problem with the heat death of the universe is the universe supposedly started with almost uniform energy distribution and overtime has become less uniform. Take our solar systems even for example it started as mostly uniform cold dust cloud in to this complex energy producing system

24:57 You CAN put a laser on your spacecraft to power a solar sail ... IF ... the the laser was powerful enough, and the material of the sail could be microscopically ablated to produce plasma to push the sail - AKA "Laser Ablation Propulsion" ...

You can totally put a laser on a ship and push it forward - point the laser backward.

Zero G metallurgy is definitely going to be a thing in the future. It's just too compelling to be able to alloy without density gradients due to gravity. Also, ferrous foams are possible but only in zero G. There's tons of stuff to experiment with on a scale that the ISS simply cannot do.

so if he had the tech to dismantle stars we could significantly delay the heat death of our local area?

"Ideally, we wanna destroy the Sun" is the most supervillany thing you have ever said. I'm gonna cross-stitch and frame it.

can never have enough fraser

Could u offset the “photonics thrust” for a light sail by pointing the laser towards the bavk and using mirrors set at minut angles so that it eventually creates a semi circle allowing the beam to now impact the sail pushing forward? So now not only will I have the push on the sail but also the photonic thrust working in tandem

Competition is always important.

C'mon Fraser don't be so down, we just have to make an AI that loves humanity and life in general. Easy peasy.

*putting a fan on your sailboat would indeed work.
:)

When the heat death of the universe is immanent, I'll just trot out into space and proclaim Let There Be Light. It'll fix things right up.

Is there any way to modulate (AM, FM even Morse) of the Hawking radiation. If so there might be the way to send a information out of Black Hole.

As I understand it light bends into a blackhole because the fabric of spacetime is stretched by the gravity. That topography is so extreme that nothing can get away from the blackhole before it gets bent back in. But that gravity is also supposed to be a wave in the fabric of spacetime (wasn't that what the laser interferometry showed us?) so why can gravity travel out from the blackholes when light can't?

Being under high pressure creates heat, right? So, find a big planet and send a long metal spear down to the center of it, and there will be a small temperature difference between the space outside/the surface and the inner planet under high pressure. Then, run a stirling engine off of that temperature difference. That should always work.

a “reasonable solar flare”. I like that! ...Or...is it a “reasonable solar flair”? 🧐🌴🏖️😎🤗

Fraiser, you've just gave the best argument against Dyson spheres/rings and also solved the Fermi Paradox: we can't see aliens because they've eaten their stars! Also, a possible explanation for the missing matter in the Universe. ;-)

Just curious - when you say that the CMB as a source of potential energy will eventually "run out," does that mean it would literally reach a temperature of absolute zero? And if it can not reach absolute zero, do we ever reach true heat death?

I reckon the only economical fusion plant would be inertia confinement and use a fiber laser and laser amplifiers like a metal cutting fiber laser on steroids. We have a fiber laser where I work it uses a laser diode that is a few watts it goes through several stages of amplification then it goes to the actual nozzle.

Is it possible to have a negative mass higgs boson?

Will we run out of cosmic microwave background before the expansion of the universe redshifts them to undetectable levels? If the universe is finite, could there be a point where the last CMB photons from the exact edge of the universe reach us? And does the CMB change over time, e.g. would hot/cold spots change over time as hot areas further away from the current cold ones come into our cosmological view?

15:26 i literally jumped up and ran to the kitchen to turn off my rice cooker! Then I realised I ate dinner 6 hrs ago..

But can you cause disturbances in the hawking radiation to send information out of a black hole?

A red dwarf looks like a good generator.

Hi Fraser, I remember reading that the Russians had a proposed mission for early 2030 called "Mercury-P".
Could you talk a little about that, and the challenges of landing on Mercury, please?

What to do next?
Focus on creating truly massive stations in orbit around the earth, the moon, and mars that can provide 1G reliably, and that we can live in with great numbers.
We can't live in less than 1G, and so we'll need a place for us to rehab from time spent on off-world environments.
Use starship to launch 100 inflatable segments. For less than the cost of a single SLS launch, we could afford to loft the equipment necessary to create a rotating toroid station over a kilometer in diameter. Need larger to afford slower rotation to provide 1G? It's only a few more reusable starship launches.
Before we go anywhere, this is the next step.
Once we have that, and prove that it's self-sustaining, we can set these up where ever they're needed: off the moon, off mars, in the belt for mining.

What is the maximum amount of time an astronaut can spend in space? Is there any difference in total mission time below vs above the Van Allen radiation belt? (ISS expeditions vs Moon missions or Mars colony)

Does a black hole have an atmosphere of any kind, whether it be gas, liquid, or other type of matter, such as exotic plasma,etc etc?

Let's say flying tic-tacs are real and let's also assume they are man made. What kind of technology would have to be used to perform the mind boggling feats performed in the USN FLIR footages and what implications would that have on space and/or planetary exploration if that technology became available for use?

I have a basic question. How does one navigate a space ship if the ship is say 1,000 light years from earth? What is used to do that?

Hi Fraser!
I’ve got a question, anything new from Juno?

Hi Fraser.
Is the "Starliner" ever going to be a thing? Will it fly? and how did Boeing become such a hot mess after decades of delivering on aerospace projects?

Fraser: Even if we take into account the 92 billion light years of this universe's event horizon , it seems probable that there are only about 3 or 4 "intelligent" alien species capable of making anything like a JWST. But we'll never know about it. Maybe many of them already did it, a few billion years ago. Regarding multiverses: likely. Likelihood of "wormhole" inter-multiverse communications? Figeddaboutit.

I'm hoping the AI singularity will save us. Regarding black holes, if a spaceship were to steal energy from a black hole in the process of slingshot acceleration, where does that stolen energy come from if nothing can escape a black hole?

Can a CME be triggered/caused intentionally?

@7:21 I hear ya... but I also know that you know 'going to Mars' is not just about 'living' somewhere else... 😀

Fusion at best can use 1% of the mass, advanced civilization might use a blackhole to access energy.

if fusion produces more energy than fission, could we replenish our hydrogen supply by doing fission on the helium byproduct, powered by the energy of fusion?

Question : why are there gold nuggets on earth ? If these atoms have been ejected from supernovas, along with tons of other type of atoms, why do they end up together as nuggets (or asteroids even) and not a messy mixture of everything clumped together ? Isn’t that against entropy ?

Hi Fraser, the IPCC demands immediate actions to limit the global warming to 1.5°C. Sending a satellite in form of a giant umbrella to the L1 orbit point to block/dim the light from the sun hitting the Earth could be a solution ?

When the carbon detonates in a white dwarf it must have a real high fusion cross section it unbinds the whole star. The pressure must make a difference.

Generally I try to punch everything we have a tool for and use the laser instead of nibbling then part it out with a .250x4.000" tool

Hi Fraser, love your show.
What if, instead of ending the space station program in a decade like advertised, they will give it a strong boost and send it to the Orbit of Mars?
Astronauts could still be inside orbiting Mars and even sending manned mission to the surface.
What do you think?

Hi Fraser, just found out about your show and loving it! My question is whether Israel has violated The Outer Space Treaty by sending Tardigrades to the Moon on board the Beresheet spacecraft? And if so, why did SpaceX allow them to launch using their rocket? Should their be consequences? Considering how NASA tries to sterilize all of its missions before going to Mars and so on to avoid contaminating the planets with Earth’s bacteria, and then we had that … Thanks
- Your new listener, Greg

Don't stars rely on pressure I thought the fusion cross section is crap at the temperatures inside a star.

if Mars once had a similar biosphere to Earth (as is a possibility) could it contain fossil fuels? And is there a realistic way of finding them without setting up a huge drilling operation?

You asked for it...Assuming Einstein's General Theory of Relativity is correct ( and I am not saying its wrong), that means any large body deforms Space/Time (bowling ball picture). That "creates" gravity, no force, no graviton necessary. How do we then say, there should be a quantum theory of gravity with gravitons present?

Hi Fraser
❓What weather systems are there on Mars and are they dangerous should humans ever try to terraform it?
Thanks, Caroline

how many generation of stars are there. If our sun is a third generation, how would it be different from a fourth generation and so on.

I imagine a big cloud of Hydrogen near Earth would soon be dispersed by the solar wind. If you put an Earth sized cloud at Earth's L2 point (where James Webb is) so it was protected, would it be safe? Or would the solar wind or other things eventually break it up?

Creating a Star is such unneficient use of hydrogen as if you make a fire in your backyard in order to warm your living room....instead of central heating inside the house. Most efficient will be collecting as much resources as possible (dismantling stars before they evaporate) and keeping the hydrogen for Antimatter annihilation, which is most efficient.

Hey Fraser my question is: if someone Is orbiting Jupiter then they see a rock flying past at 10% the speed of light what colour would his shoes be

I was wondering when he'd open his eyes...

With a population of ~7 billion, we currently produce enough food to feed 11 billion people.

Does Earth have more interesting and varied weather than other planets in the Solar System, or do we just notice more things because we are directly affected by it?

Do you think we are the first intelligent species that has survived several great filters?
I think we are just the first to survive that the galaxy is vibrant with life such as bacteria/viruses etc.

More questions in a second but first I have to go and sort out my rice cooker..

0:12 I dreamt you a question 3 weeks ago and you still haven't answered it 😭

He Fraser, I've had a question that's been bugging me for like a year now and this "Earandel" (sp?) star observation has brought it back to mind: Why is it assumed that none of the first stars - the so called Population 3 stars, could have survived to the present day? I get that giant Oh-sh*t type stars would have been the norm and they'd have lived fast and died young but I find it impossible to believe that there were NO red dwarfs formed from that primordial gas. Like how is it that only 2 generations later and the demographics of star populations have fully shifted towards small stars being the norm? None of this is deterministic. It would follow a statistical distribution, albeit a dynamically weighted one. So yeah, I'm pretty sure the conventional wisdom is just obviously wrong, and I don't say that lightly. The question is why.

Let us wishfully think! Indeed - best advice anyone could give!! Have smart babies, accept your own mortality, and let our children shape the future :)

it is an idea stolen from some science fiction book
but wouldn't it be easier / practical to create "nano" fusion ?
it for sure would require less energy to contain a little bit of plasma
and if that way fusion will become possible we still have enough energy to maybe power an vehicle or airplane. 🤔

....maybe one day in the distant future, someone will try to turn Jupiter into a star ;-)

If in the far future, humans built a sky city on Venus the size of let's say Los Angeles on massive stilts over the highest mountain on Venus... over time how would thr area under the city change when no sunlight hit it?

@Brian Sparks No offense to Fraser but I feel like he sort of lost the plot in his off-the-cuff answer to your question. On planets without a solid crust the surface is defined to be the depth at which the atmospheric pressure is 1 bar. Also, the core of Jupiter is thought to be about 5000 K, not 80 000 K. Saturn is thought to be as much as 11000 K, but even the hottest stars only have surface temperatures of about 60 000 K. Planets are hot inside but not that hot.

Okay. I’ll ask a question. Will we ever turn into an alien life form? Or can we or will we grow wings and fly??

27:30 This is a sort of special pleading. Yes, all species that’s have ever loved have gone extinct… except the ones who didn’t. And that includes everything alive today. I’m the latest in an unbroken line of survivors dating back a billion years. You’re gonna bet against those odds? Ok.

Kardashev scale needs decimal points

Hi Fraser,
I'm late, but how was the rice? :D

zojirushi i hear :P

Question, what happened to the heat death of your rice?

Force evolution

from what I've read about EMP...it only happens if a bomb is detonated in a thin atmosphere..

"Baby's First Biolab"

Because some questions have me like…What?????

I don't agree that we've explored every nook and cranny of earth. There's always a chance for underground lizard people. 😁👍