Could Solar Panels in Space Solve all Our Energy Needs?

His foundation series is beautiful too.

@@brtuh5865 - Towards the end of his life, he wrote several bridge novels that connected the Robot novels, the Settler novellas, and Foundation into a single Future History. It is truly amazing.

Thank you for this comment, and to those who relied with additional input - I have been umming and ahhing over where to start with Asimov and somewhat put off with the popular perception of I Robot, so thanks to all of you I will give it a go. As a lifelong nerd I feel incomplete without a dive into one of the revered masters of SciFi.

If I recall correctly, didn't Asimov talk about solar collector on the moon instead of satellite?

You obviously meant the movie is nothing like the book :-)
I guess I, Robot as a title was more iconic than The Caves of Steel...

I totally forgot those. Now I'm on board with the space laser plan.

Or Helios One from Fallout New Vegas

@@conlinbryant5037 I'll buy that toy gun for 40 caps

That's called "culling the herd" to those in the know.

Sounds like a great plot for your typical sci-fi movie

+

@@tarttooth6022 =

@@user-fy5sg9rg7d ÷

@@thehumanistisin9924 •

@@robertharris6092 ¥

I bet Kyle Hill would like one for his [FACILITY]

No way this is researched for energy production, instead of weaponisation.

The GDI would like a word with you

a giant "Laser" on the moon.. we'll call it the "Alan Parsons Project"

@@Alex-qx7jn
Ahem. SimCity 2000 and 3000 has Microwave Powerplants, which used orbiting satellites to gather solar energy in orbit and project energy into the station's dish. Miss, and the ground burns from received energy.

Bezos and Musk will decimate us.

You may fire when ready...

Yep. And to work the would probably need some kind of ground control to update aim. How secure would that be to hackers? Especially state supported ones?

"Today's power shortage's been caused by the decision of the congress to scorch the entire northern half of the korean peninsula. Now to more exciting news, the IPhone 134 has been revealed at the...."

Don't worry, I'm sure it will be government ran.

"If I were creating the world I wouldn't mess about with butterflies and daffodils. I would have started with lasers, eight o'clock, Day One!"
--- Evil, Time Bandits (1981)

Dr.Evil: I wana build a giant " Laser " on the " Moon! "

You sir, are a scholar and a poet

I wish someone would crunch the numbers on how much energy it would take to manufacture and launch all that, and see how many years it would take for the satellite to recoup that cost

@@Eclipsed_Archon , TL;DR : seven and a half weeks assuming 1GW power generation and only considering the launch energy under ideal conditions.
Let's give it a shot with some rough estimates. The energy it takes to get the satellite into GEOS orbit is equal to the change in potential energy (ΔPE) to get it to the right altitude and change in kinetic energy (ΔKE) to get it to the right orbital velocity. Let's tackle this in two parts.
First, ΔPE ..... This is the change in potential energy from a height of 0km to a height of 35,000km. Let's estimating acceleration due to gravity as g(h) = G*Me/(Re+h)^2 where G is Newton's gravitational constant, Me is the mass of the earth, Re is the radius of the earth, and h is altitude. Multiply this by the mass of 80,000 tonnes (assuming this is metric tons) and integrate over h = 0 to 35,000km and we get an estimated ΔPE = 4.23×10^15 Joules.
Next, ΔKE ... The system would need to reach GEOS orbital velocity of about 3km/sec. This is a final kinetic energy of (1/2)×(80,000 tonnes)×(3km/sec)^2 which is about 3.6×10^14 Joules. Though, the system starts moving with the earth's surface, which moves at about 0.46 km/sec, so it starts with about 8.464×10^12 Joules of kinetic energy. So, the ΔKE is about 3.5×10^14 Joules.
The total energy investment is about 4.58×10^15 Joules.
A gigawatt of power is 1×10^9 Joules/second. The system generating 1 GW of power would take about 7.5 weeks for a return on investment in energy input just for getting to launch to GEOS (assuming ideal conditions). Doesn't include energy input towards manufacturing.

@@drderpphd fair play sir. Fair play 👨🏻‍🎓

@@drderpphd thank you for taking the time to do math ☺️ I love reading physics problems, it makes my brain meld in a good way

@@drderpphd that's a WAY shorter timeframe than I expected ngl. That makes it sound feasible somehow

i'm fairly sure a can of gasoline and a generator qualifies for this which we all know is not what we understand under reliable :D

Statistics are only as good as their data sources. It's not like someone with a notebook went around to 7 billion people, asking if they had electricity. Like most statistics, the 13% is only a guess and often the guesses are wildly inaccurate.
It's similar to statistics on the efficiencies of solar panels. Many of which ignore production processes, transportation, environmental degradation at solar farm sites and disposal of the toxic components.

frequent black and brown outs since plugging EVs into the grid isn't reliable but it was before that.

Lol

😂😂

Or my digital watches

Nothing can replace my funky gizmos

I read "Critter Land Hank" in my speed reading mind. That would have been neat still... I think. 🤔

The maximum beam intensity for microwave Space Solar Power is one-quarter that of noon sunlight - safe for birds and bees to fly directly through. Integral to targeting a beam from 35,786 kilometres is a co-operative receiving site (rectenna) which send out a weak "pilot" beam used to guide the power beam back.

We know, the Americans, Chinese, and Russians will totally try not to develop stronger lasers to burn enemy governments

There are talks of this happening on the moon. The idea being that you could potentially construct an equatorial solar belt around the moon so that some part of the array would always be in view of the sun, and emitters would be positioned every-so-often to beam it back to Earth. Better yet, you could use the lunar regolith as a building material so that transit costs would be low, 3D printable designs would be preferred both for worker bots and for the array itself, and then a mass driver could be used for a propellant-free return journey, should anything need to be transported to-or-from the moon

Except that solar is already so expensive it needs government subsidies and STILL has to charge homes 4x the price for power.
We already have the best solution: nuclear reactors
Why don't we use them? Ask the same people who are up in arms about co2 emissions and you'll notice they're against these too. They're also against wind turbines and solar collection power plants because they kill some birds.
Literally nothing is good enough for them. But nuclear is the best we have, and they're completely opposed to it.
So I guess if manmade climate change is real, they're the ones to blame when we're baking 50 years from now, because they wouldn't allow nuclear plants which are currently our *best option by a HUGE margin.*

We could get some solar power satellites within 20 years (or 5, but that would require dedicated funding). Space elevators, regretfully, are still waiting for the right materials.

Technically we in principal already have the materials to be able to construct a lunar space elevator thanks to the lack of a pesky atmosphere and the month long synchronous rotation bringing the material strengths needed to support it into the range of existing materials. The catch is that you really need space based manufacturing and in situ resource utilization to make it work. Probably would want to capture NEO asteroids to start the process seeing as you need to start construction at the Earth Moon L1 Lagrange point

Best case scenario it works 50% of the time. So unless electron -> microwave -> electron robs us of >50% GSO is still the better option. And I don't think most places piping electricity from the tropics to nearly the polls is even a consideration. Nuclear may be the best option in the end.

Isaac Arthur did a great VERY detailed video including relevant estimations in size and efficiency ruclips.net/video/eBCbdThIJNE/видео.html

I don’t know about that… earth based solar is average 6 hours of output, and around 20% of the 1000W/Meter of surface area…
Space based gets 1300W/meter, and can convert photons 24/7… so… 6 times the time, and 30% more energy available… not to mention space based panels collect a higher percentage OF the photons energy, around 40% due to wavelengths available, and design considerations…
I can see it being far more feasible than earth based solar conversion.

That's Musk's assertion, but I strongly disagree. The CASSIOPeiA Solar Power Satellite concept is solid state and has an always-sun-facing attitude. That means it can use %44 efficient CPV cells (39% operating efficiency). Taking the whole solar-dc-microwave-propagation-interception-dc efficiency chain, these cells are equivalent to 27% panels on the ground at noon - better than the best terrestrial PV panels available today.
If you then consider the annual case (UK-specific), where large-scale PV only achieves it's capacity for 11% annually, or 2.8% in winter months, then Space Solar is up-to 42 times better than terrestrial solar.
Search YT for ISDC 2020 Day 3 (starting 4 hours-in) for a discussion of the UK economic case for Space Solar.

Also geosynchronous orbit is the prime real-estate of space. Everyone wants it. From GPS to communications satellites (ie: T.V./radio.) And many others.

@@zidaryn Plenty of real estate to go around, GSO has 130000+ km to place satellites in

@@TML0677 I'd actually be willing to bet the reason the US military is interested is to power drones.

@@unpaintedleadsyndrome Yeah, geostationary orbit is already pretty full. You're not going to put a satellite every km or something like that. www.space.com/29222-geosynchronous-orbit.html

@@jababo9253 there is nothing in orbital mechanics that prevents you from doing just that. A few hundred satellites on 260000 km of orbit(forgot that it's 2*pi*r) is by no means crowded

@@colinsmith1495 the science behind power satellites and rectennas allow for power transmission though bands tighter than that of the sun. You'd be able to send exclusively microwaves through the atmosphere, which have far less energy dissipation through the atmosphere than visible light. If you wanted to stop heat from getting to the earth, all youd have to do is place it at the L1 Lagrange point between the sun and earth, rather than in geostationary orbit.

In short, scientists have no idea, and any mathematical nonsense any commenter spouts off is complete bullship. Just like pharmacists have no idea the adverse effects of their pills, 1,5,10 years down the road to both the biochemical systems, the brain or genetically, but they'll sell it to you anyways cause your dumb and you'll pay for it.
If you think anyone on earth has any idea how the generation of artificially generated beams of energy is going to interact with the overwhelming chemical soup of the atmosphere, it's weather patterns, and or the adverse effects that it'll have on life forms, their either smarter then anything currently in existence, or a conman selling you statistical nonsense.
If you think some dumbass with a degree on RUclips is gonna give you an actual answer, your on the wrong site my dude.

​@@moguldamongrel3054 What do you mean about how some commented doesn't understand how artifically generated beams interract with the atmosphere and the life on it? As for the subtleties, I think you're damn right. At best, it would be similar to small scale unethical experiments on how things like microwaves affect living tissue. At worst, using the power of imaginaaaation, imagine you'd get migratory bird patterns changing to dodge the giant beams of "uncomfortably hot light" which could lead to insect population booms in certain places which could just lead to all kinds of other bizzare schtuff.
Nothing that I said, or SciShow said is false, bud. It'd be more accurate to say that the nuances of giant uber-engineering projects like space fountains, space elevators, power satelites, and terwatt sized fusion reactors are so numerous that engineering math can't be trusted for anything other than the most basic and obvious consequences.
For certain, regardless of how certain y'are that enginerds on the internet are always wrong, you can BET that thermodynamics will still work. Thousands of acres of chicken wire rectennas will get HOT, or if not hot, warm. Mass estimates for these kinds of launch systems are still largely based on in-situ assembly masses that require human assembly, as most of the NASA technical reports that you can find on the NTRS for "autonymous on orbit assembly" have fairly substantial error margins for exactly how much mass would be needed on each unitary satelite to allow them to assemble themselves.
Alternatively, if you just assume that each power satelite would be its own standalone James-Webb looking origami nightmare, then you'd be eating a crap ton of lost mass to having each individual satelite carrying its own power system and RCS star scanner and communications equipment, rather than using larger and more efficient units which could be sent up piecewise one launch at a time.
What about this stuff do you take issue with?

@@Zachthesloth humans are like people who know smart words, and have big tools but are so dumb they'd do something dumb.

@@moguldamongrel3054 I mean sure, but id argue that stupid space lasers that could possibly help the planet is a better research project than not trying it.

It's weird how they keep shutting those down, when they know damn well they're the best and safest option to carbon neutral energy for the foreseeable future. I guess getting elected again is more important than doing the hard work of convincing voters that what they fear is actually their safest bet.

@@martingoldfire cook nuclear power plant is based in Michigan right on the shore of the biggest fresh water resource in north America, people here seem to be pretty confident in ti to put it there. Yet people ignore the success and focus on the couple failures.

If you define green as no carbon emissions... nuclear IS green.

@@unpaintedleadsyndrome I'm defining _"fully green"_ as _"no environmentally hazardous byproducts at all"_ but, yeah, that's exactly my point.
Nuclear waste is a concern, but we have ways to deal with it and, in the mean time, we're not pumping more carbon into the atmosphere.

The gen 4 coming out won't have waste. In fact it will be able to use waste as fuel that we already have.

@@3ron There we go, then!
I'm honestly pretty sure the nuclear phobia is being pushed by the coal and oil lobbies to keep it from pushing them out.

But at the moment they create nuclear waste and if you include the cost for making sure no one gets harmed over thousands of years then it probably won't be as cheap I guess

#worth

@@TubbyBubbleLove42 I never aware you hate your grandma that much. 😶

@@boulderbash19700209 My grandma doesn't live in her home anymore, it'd just be the house getting burnt.

how do you get a "small" misalignment? A small change in rotation would make the beam to spin so fast from earth's perspective that the beam would not be in the same place for more than a few microseconds, insufficient to set anything on fire. And that's assuming the hit was so perfectly aligned with earth that it only changed one axis and not strong enough to destroy the satellite itself. People is affraid of really really unlikely events.

@@BlueFrenzy Just vibration from people walking around can make misallignment, even some solar wind blow too strong or too weak can too. It's weightless environment, after all.
When we are talking about space, the numbers always big. A 0.01 degree misallignment won't matter when you setup bts communication tower on earth. But in space, we have to allign the beam for a distance of 1000 or more than bts towers. 0.01 degree can easily translated to hundreds of kilometers. Of scorched earth.
And of course, we are also talking about gigawatt or maybe terawatt laser, otherwise why bother spend money to build one. Even a split second under its beam can turn human into charcoal.

What about sandstorms tho and other logistical and operational problems of building a powergrid and infanstructure in the middle of the desert. Sand isent exacly stable ground

@@snoden9907 They can be on a rocky bit, deserts aren't all sand. I don't know about sandstorms though. I imagine there would be areas that are sheltered from stuff like that, or that just don't experience them that often, but that may be an issue. Possibly less of an issue than launching hundreds of satellites though...

I know it is 2 years old, sorry for necro, but when I see a question I need to respond.
First. Power satelites are similarly potent and they biggest bottleneck is capability to get them up, there are many ways to drastically reduce cost of geting things in orbit, it is just that there is no reason to currently, because it is all for science and maintenance of current satelite grid and current capabilities suffice. I advise you to take a look at skyhooks on example.
Second. More diverse economy is more resistant to crisises, so ideally you would want to have as many different power sources as possible in order to evade big issues when some part of market will crumble; rapid inflation in prices of fuel or specific materials necessary for one power source on example.

🤣

That answer lies in the fact that the beam diverges to a couple kilometers wide. I do wonder how unsafe that would be for, say, birds flying through the beam. But what percentage of that power spread over an area of kilometers is concentrated on the area of a single bird? Idk, gigawatts is a lot, but spread that thin it may not be so unsafe.

I mean... they do call it a beam... so I assume it could be focused... that would a good excuse to build such a thing...

@@JeffOf813 you'd only build it to be focusable as much as needed. You can't make a Lazer gun with a flashlight and binoculars, the lenses have to be designed with extreme precision to make something like that, so it wouldn't actually be practical to make this a weapon

@@bengoodwin2141 The same thing was literally said about atomic forces.

@@QarthCEO no, not really. This isn't a new force, it's something that's been understood for centuries. A specific lense will only focus light a certain amount, and you'd need a giant lense right in front of the target to focus the beam back into a dangerous amount from how it spreads out.

Heh, ha. You know anyone with several football fields-worth of space-ready mirrors, a fleet of two hundred Falcon Heavy rockets, and an entire first-world country's fuel reserves not being used for anything else?

Shhhh, don't let the "Obama lit the California fires with space lasers" crowd hear you

It’s actually called a maser. Laser is an acronym for light amplification by stimulated emissions of radiation. And of course maser is the same except the “m” stands for microwave.

Not with the microwave system, they choose their frequencies because they _don't_ meaningfully interact with the atmosphere.

The degree to which a beam spreads out with distance depends on the wavelength of the light and the size of the emitter. Lasers have short wavelength and are easy to keep focussed with fairly small emitters. Masers have much longer wavelengths and their beams will spread out much more, unless the emitter is made impossibly large.

The whole point of putting the satellite in geosynchronous orbit is so that it doesn't have to try to hit a moving target. You are suggesting that we have a geosynchronous satellite try to hit a moving target, then that moving target try to relay that power to another moving target on the ground, with all of the associated power loss from the relay. You are making a Rube Goldberg machine with all of these moving parts that are essentially redundant.

For awhile I was sold on SBSP but then I came across Kirk Sorensen's videos on LFTR. LFTR seems like the better near term solution for electricity, industrial heat, water purification and desalination. Just have to make the AEC and IAEA get on board. We can do things fast when the painful need arises. Otherwise the debilitating crawl of bureaucracy will keep us on fossil fuels forever.

YES, LET THEM FUQIN KNOW

For the love of God lol

I see I found another person of culture

Exactly, we just need better energy storage solutions and we'll be fine without space power stations.

Wouldn't the microwaves cook any flying organisms in the area, and heat up the local atmosphere?

Not necessarily. The Starlink array has giant reflective panels on it which is why they glow so brightly (SpaceX has promised future ones would not do this btw). These would have solar panels which are dark and absorb light - and are facing the sun. The back-side of which could easily be painted black to make them ~invisible.

The constellation idea. Definitely. The geosynchronous on it should be fine

Direct heating is a far smaller effect of producing power than the greenhouse effect.

Compared with fossil power (originally stored many millions of years ago) directly releasing 2 GW of power as waste heat (optimistically, for CCGT) for every GW of electricity (plus CO2 meaning more of this waste heat is trapped), or desert solar (20% efficient) changing the local albedo such that more solar energy is absorbed at low altitudes. A microwave rectenna was demonstrated at 90% efficiency in the 1970s (Google Goldstone power beaming demonstration).

Honestly, the first option sounds like an incredibly dumb idea. The cost and area required to produce the energy for one city is nowhere near favorable.
Of course, a better solution is staring us right in our faces: Improved battery technology (whenever that FINALLY happens and doesn’t pose a significant danger to the environment) and NUCLEAR.

Those first few science fiction authors came up with a lot of these ideas, I think mostly because the scientists were focused on more near-term ideas that space opened up, or arguing about quantum mechanics.

Will Smith forfeited a surefire Academy Award because in Asimov's robot world, it was impossible for robots to rebel. They just didn't have the programs and had really good antivirus programming. This made for very interesting plots. That the robots in the movie rebelled made the movie ordinary; the scriptwriters were lazy. It was jarring and distracting. Oh well ... Mr. Smith I feel earned an Oscar for a movie in which he played a Mexican Federale. He's a great actor.

Or we can use them all. You don't have to choose one.

Yes omnipotent one; the world exists to serve your needs. Let us know if you want anything else.

@@JackSparrow-re4ql well if you're asking i'd like you all to stop fighting thanks.

This sort of thing is best considered as what would be used to _replace_ nuclear power plants.

@@absalomdraconis nuclear fusion whenever that FINALLY gets up and running. By the time we become concerned about running out of resources for nuclear power, we will already have fusion power, and space mining operations.

😂

I've seen numbers that say geothermal is incapable of sustaining a first-world civilization, though I do like to think they just hadn't studied it over a long-enough time frame (I think it was 30 years).

@@absalomdraconis energy.mit.edu/wp-content/uploads/2006/11/MITEI-The-Future-of-Geothermal-Energy.pdf

Many of these ideas were thought up by science fiction authors a lifetime before they would be viable. Some of the ideas are even centuries out.
But at least with SpaceX, we're reusing our rockets, and high speed internet will soon be available in the most remote parts of the globe. Also, we've flown a helicopter on Mars, collected samples from asteroids, and in a few years, we're going back to the moon to do more than just pick up some rocks. Over the last few decades, our mars rovers have gone from 25 pounds to nearly 2000. The asteroid and lunar missions are also seen as more than just science, but also the first steps of prospecting.

Having many smaller solar collectors rather than few large ones would be better for that. You could handle losing some.

It would be easier to make, but you would get more power from space...you can put them in oribt so it always faces the sun and never covered by clouds.

No, way too hostile there. Might as well try north korea

The desert is actually not that dark and reflects a lot of heat back out into space, but 70% of the light energy hitting a solar panel is converted to waste heat that then makes the lower atmosphere above them hotter. The key word here is *albedo.*

I assume by africa you mean the Sahara the main issue is logistic ... how can you take all thoses solars panels to the middle of the desert ? there are really few roads and the maintenance is close to non existant and even less electric poles ect you got the idea

Australian outback would be the most ideal place, friendly nation to most nations on earth it's far away from all the unfriendly nations and has a lot of land and sun

The numbers fir OTEC say that it isn't capable of sustaining a first-world civilization (I do hope they engineer a way around that one), and the places that need the power are almost never where OTEC can actually be operated.

It would be cheaper just to make solar panel connectable modules that can float, and put them on the surface of the ocean.

@@moguldamongrel3054 maybe the builders could also put some kind of filter at the bottom to collect microplastics or other pollutants 🤔

@@FireThemAll might as well. What's that saying, 2 birds with one stone? You'd have to find a way to balance out the thermal loss though, since putting a surface on the ocean surface would alter water temperatures drastically and irrevocably. So you'd have to find a way to transfer heat whilst still gaining electricity. Maybe transparent panels? Or pull heat from the deserts? Idk I'd take some serious work.

My tin foil hat will protect me

@@zomfgeclipse Nah just surround yourself with chakra crystals bro. Don't be ridiculous.

Yes: nukes. Hundreds of them pointing right now at you. And I can tell you that they will do more damage than heating up the ambience.

@@BlueFrenzy and yet nukes aren't allowed in space. Crazy.

@@miketerran4140 They are also not allowed on earth. Any nuke launch is forbidden by the whole international community. But don't doubt that if someone wants to nuke your head, they will do it. Same for this. Using a beam to burn your hair is going to be forbiden, and the only thing preventing anyone to do it is the international response.

LFTR!
WoOT

Actually it would be best to use what is natural around the location needing power. If your in the Arctic then solar is great for half the year and wind might make up for the rest of the year when fewer people are there and solar isn’t viable. Then you go to central usa (the plains) and wind would be really great in the more northern and southern parts where weather isn’t as good for solar. Solar would be best in states with tons of sun and few weather events like the desert. Go to states that have tons of water and damns are really great for power. Up in Washington we are almost all hydro power. We actually export power to states around us. Yes we have a natural gas and a nuclear power plant…but only one each.
As I said, it’s not about going all in on one or two power sources around the country but about using what is best for that location. On and before you say hydro will not work as water levels drop…nor will most other power sources as all but a select few (wind, solar, and some specific engine like natural gas generators) use water for steam production that then creates power as it is much more efficient.

Nuclear is more responsible for global warming than anything else.
*Why do you think they have problems with the wastes?*
10 YEARS TO COOL IT DOWN UNDER 40 FEET OF HEAVY WATER, that can't be transformed back to regular H2O.
Want to guess where all the heat is at?
Accidents, Bombs, Bomb Test, Normal Operations Of Power Stations.
*All Release Man Made Nuclear 🔥 Hot Particles That Can't Be Extinguished!*
Into every levels of the environment.
Some fly away out of the reactor walls!
A security guard got cancer in the ass from the seat he used in the guard shack. At The Entrance Gate To The Factory!
The hottest 🔥 particles have a Half-Life Of 4 Billion Years.
That's 40 Billion Years Before It's Safe.
Longer than the earth.
*Trees Dying Where You Are?*
Thank Your Nuclear Stars!

@@arguescreamholler did you know that there was a natural occurring nuclear reactor that was discovered years ago? It was not created by humans but warmed that area. So no, human nuclear isn’t the only thing warming the planet (though this site was mined out).
On top of that, heat islands and lack of foliage is actually a bigger concern. Asphalt absorbs tons of heat and sunlight (why is it black…black absorbs more energy then every other color) and emits it at night warming up the area which prevents recovery. This has become a major issue with the last few heat waves and it will just get worse. The lack of foliage means plants are unable to absorb the solar energy and that energy is instead converted to heat. Plus plants hold water which allows them to distribute the heat or even dissipate it back into the atmosphere. To say that on energy source is causing all the issues is moronic. Also if not for the nuclear test ban treaty newer reactor designs (like pebble bed reactors) would be able to take nuclear waste and use it as fuel. But we are not allowed to really test them. Well that’s also to do with fear mongers like you who insist nuclear is the worst thing out there.

@@Chris-cv1ll
Show where I said ONLY?

Hopefully less than trapping it in exponentially accelerating climate change.

Directly heating up the Earth with extra energy from the sun is orders of magnitude less effect than the greenhouse effect for the same amount of useable energy. And other ground-based methods of generating power produce waste heat, anyway. Solar panels on the ground are dark, but a lot of the light they absorb turns into heat rather than electricity.

@@Br3ttM 99% of the energy on the Earth, comes from the sun. More sun = more heat.
The rockets used to lift solar panels to orbit are gonna make greenhouse gases anyways.

It's a terrible idea.

@@SpecialEDy It's a cost benefit equation, and we lack all the numbers to say which is better. Yes, this will heat the earth if we do it. Will the energy gained cause less greenhouse gasses to be created than would have been from making that same amount of electricity on earth using fossil fuels? We, as the viewers simply don't have the numbers for that. We'll have to let the actual scientists do that math, rather than debating it without facts.

I don't know how much power you think those stuff have. 1 gigawatt sounds like a lot, but think carefully: if it were able to melt a building you could not have a receiver for it. Let's say it can set on fire a few meters of diameter. And that's if it remains pointing to the same place, because in space things don't shift, and if it starts rotating uncontrolled it will probably keep rotating forever like that. Oh, and the mirror had to survive the impact which is... unlikely at best.

😱

@@BlueFrenzy The receptor will be another component that we need to invent. How to catch a gigawatt laser without get yourself pulverized ..

@@gorilladisco9108 Dude, It's invented. It's named antenna. When you spread 1 gigawatt of energy in a square kilometer area you get an energy density of 1 kilowatt per square meter. Your microwave oven has that power concentrated in a tenth of that area, and it doesn't melt anything and much less instantaneously.

@@BlueFrenzyFirst of all, it's not antenna. It called collector. And it's so small compared with the reflector. Maybe it won't melt the reflector, but the collector take it in concentrated beam.
Second, while microwave oven throw 1 kilowatt, it's not synchronized as laser. It's scattered. But in laser form, a 5 watt can melt plastics.
And as I explain before, even the smallest vibration at that distance can send the beam hundreds kilometers off target. So either the reflector occupy that wide area or we must invent some technology to deal with it.

You might want to rethink that idea: ruclips.net/video/ZwY2E0hjGuU/видео.html

@@Norp-i7m we can deal with nuclear waste perfectly safely. You do know that burning fossil fuels releases far more in radioactivity in one year than the nuclear industry has ever done, don't you? Well you should.

@@marvintpandroid2213 fusion should be the way to go not waste producing fission.

@@tauceti8060 we don't have the time to mess about waiting for new technologies. We need to invest in what we know works now.

Reminds me of the 70s TV show 'Doomwatch' episode which inspired the 'Mutant 59(?); The Plastic Eaters apocalypse novel.

Exactly.

Too much nuclear waste to deal with with this option and uranium isn't infinite.

@@tauceti8060 nuclear waste is an easy solution. Breeder reactors and molten salt reactors can use our current waste as fuel. With current Gen 4 designs, the nuclear waste situation is a nonissue. On top of that, Thorium reactors use much less fuel as uranium reactors, are cleaner, and are much more abundant. The amount of thorium and uranium we currently have will give us more than enough time to finalize fusion power and space mining.

The capability to harvest energy from space is another step for us to become spacefaring civilization.

@@gorilladisco9108 you are correct, but their are major flaws in energy transmission in these designs, and the current feasibility is nowhere near here.

I'm sure we can figure something out.

@@albertjackinson : Yeah, use microwave frequencies.

If we’re in the position to economically launch 80,000 tonnes of solar farms then it shouldn’t be too much to ask that a few copies of JWST be launched.

Why not both?

Yeah,but they also produce radioactive waste.

Most in the technology space are trying to make devices more efficient. This typically just means faster computers in the same power envelope, and cars that perform better rather than use less energy, but even those aren't necessarily bad things. Greater efficiency means you can either accomplish the same task with the same amount of energy but in less time, or, you can accomplish the same task in the same amount of time using less energy.

Any bond villain would be so proud! I demand that twirlable mustaches be mandatory for all space laser operators!

As opposed to... dumping more CO2 into the air? Climate change was most notably increased when that started happening.

Why not? The infrared is transparent to the atmosphere except for greenhouse gases. If you stop dumping CO2 into the atmosphere, you stop keeping the heat inside. Burning coal also dumps infrared in the atmosphere, plus the extra CO2.

you know there was still co2 in the atmosphere before the industrial revolution right? 278ppm vs 417ppm now, it's 50% higher now
it would still be adding heat to the system. yes, probably less bad, but it's still something that needs to be watched, because it can be overdone

Why is that?

@@albertjackinson because it's just designed to soak up grant money that would go a hell of a lot further building regular solar panels here on earth in places that we already know they will work, where gravel trucks won't be driving over them.

Fusion will be commercialised before we even have the capability to get that much stuff into orbit.

@@DanielSMatthews Nah. The StarShip can carry almost 200 tons into orbit. So delivering the quoted 80,000 tons per satellite would only take 400 launches which is very feasable since SpaceX plan to mass-produce these rockets, launch them like 3 times a day at $2 million a launch and re-use them many times.
Even with the existing Saturn V (140 ton payload, $185 million per lauch), it would take 570 launches and $74 billion per satellite. The cost/benefit is another story in this case though.

@@zimelo6957 That has nothing to do with the point I made, perhaps you don't realise how close we actually are to commercial fusion and how far we are away from Musk's plans coming to fruition? Also keep in mind that you would need to repeat the exercise every 20 years even if they did not get damaged in a big solar flare.

@@DanielSMatthews Fusion (with net profit) is always 20 years away, so we could have the 2nd generation of space solar done by the time they acheive it. I'm only talking about the first pilot plant in USA, and they plans are still extremely dubious. www.sciencemag.org/news/2021/02/road-map-us-fusion-power-plant-comes-clearer-focus-sort
For the space solar, we already have all we need.
SpaceX moves quick. Their first starship orbital launch is coming up in August (according to regulatory filings, not Elon time), and they are already semi-mass-producing those things.
There's a reason why he said UK, USA and Japan are already testing space solar.

@@zimelo6957 Like I said, you have no idea, go and research what Jeff Bezos just invested in. :-)

You know theres more than one scientist on earth, right? We have the people and resources to focus on multiple possible solutions to humanitys biggest problem. Besides, fusion is still 30 years away, just as it has been the last 60 years.

@@2MeterLP yes I know that. I'm just saying that fusion has great potential to provide clean power for the entire planet and the fuel source for it is practically inexhaustible. Still I think the green energy future will be a multiple approach: wind, solar, hydro,
Having said that the biggest advantage that fusion has over solar and wind is its not dependent on the sun shining or the wind blowing. A fusion power plant can work at all times.

A dyson sphere is around the sun 🤡