"You see," my colleague went on, "one doesn’t see exactly where or how to move. Believe me, this is true. Each act, each occasion, is worse than the last, but only a little worse. You wait for the next and the next. You wait for one great shocking occasion, thinking that others, when such a shock comes, will join with you in resisting somehow. You don’t want to act, or even talk, alone; you don’t want to ‘go out of your way to make trouble.’ Why not?—Well, you are not in the habit of doing it. And it is not just fear, fear of standing alone, that restrains you; it is also genuine uncertainty.
Sorry to hear you didn’t like it! As a sci-fi and alt history nerd I’ve rewatched it a couple times with delight. Since you didn’t get past episode 2 I can’t speak to how much (or little) character development there was. That said, my favorite characters definitely grow on me, season 1 to end of season 3 takes place over 40 years so there’s a lot of passage of time for characters to mature.
I completely understand. On a personal level I worked for years on lobbying to get a carbon fee and dividend system passed at state and federal levels because I felt that taxing companies for their carbon emissions was a smart and tangible way of dealing with the problem. As I’ve grown cynical with CF&D never catching on politically, I sniffed out different technocratic solutions. I agree the companies researching and implementing CCS are the same oil companies that got us into this mess so how much can we take from their advocacy with CCS as being a good thing? As a professional geologist I have a love-hate relationship with O&G industry but they are so powerful I don’t know how to work against them but instead with them (I don’t work for an oil company, I work in publicly funded CCS research)
Not exactly dry ice, it is supercritically pressured carbon dioxide so it has the density of a liquid but defuses like a gas. CO2 plumes are stable at depths where injection occurs because they are maintained in a pressure and temperature environment where the CO2 stays in a liquid stage, so it will never rise to the surface like a conventional lighter-than-air gas. In-situ mineral carbonation can also occur where the CO2 is injected into silicate rock formations to promote carbonate mineral formation, locking the CO2 for thousands (millions maybe) years.
This is just simply not true . There is robust science that shows the technology can work, it is not a comprehensive solution, but one of many that can reduce atmospheric CO2 emissions. You can read my post where I cite some literature if you’re interested.
Planting more trees and making more solar panels won’t fix the issue of rapidly increasing CO2 emissions around the world. Making solar panels is not a green industry and the ability to build them locally is not really an option for a lot of countries, which will need petroleum fuel to ship panels and mine the materials. CCS is the only technology we have available that can actually prevent CO2 emissions from entering the atmosphere from sites that are CO2-heavy, with direct air capture showing we can remove carbon from the air (though it is not inefficient). Yes, that CO2 is instead going into the deep subsurface (mineralized or as a supercritical plume) but it can be managed with robust regulations and scientific monitoring. Petroleum based combustion is not going away and especially in an incoming Trump administration I see any option on the table as a good one when it comes to carbon wrangling. I’m happy to debate this because as a society we need to have dialogue about how to mitigate climate change.
Regarding this Illinois project, this project began 10 years ago as a proof of concept, of course target sequestration rates will be lower than desired. DOE regularly invests huge sums of money to develop technology for industry using research scale pilots. This plant was never meant to be a proof of what large-scale CCS can do.
I was talking to my brother in law about this. His position approximates this article. While I agree this may not be intentional spying (never proven in court ) on Apple’s part they at a minimum did not account for this huge engineering problem on the back end where Siri couldn’t decipher between key words and background noise. Maybe don’t push products that aren’t robust? Especially since this law suit started in 2019 when voice tech was still (still is) in an infancy.
I think you hit the nail on the head answering OP’s question, sorry you didn’t like it! To be fair it wasn’t popular when it came out and became a cult classic in the 00s. I think it captures an absurdist side of America of the 90s (not to mention starring Buscemi, one of my favorite actors)… bowling alleys for social meet ups, roughneck Vietnam vets, drug-slipping Porn kingpins. I watch it maybe a couple times a year when I have a hankering for a White Russian :)
Ooo good choice! It is a cult classic and truly emblematic of Soviet-era comedies. The film doesn’t take itself too seriously and the fight scenes stand the test of time.
I was a youngling when this happened but rereading about this event 20 years later… we’ve seen nothing like it. I think the most interesting fact from this earthquake/tsunami is that the Indian Ocean’s volume permanently decreased as a result of sea floor movement, producing a rise in the global sea level by an estimated 0.1 mm.
This event also improved tsunami warning systems throughout the Indian Ocean and Indonesia, hopefully if an event like this happens there will be a lot more notice given.
I don’t see the argument you’re making. Science across all disciplines is complex. The more a person attempts to understand and define an object or a phenomenon it opens more doors to more questions about it’s nature. Classification is inherent to our human minds understanding the world around us.
Hot springs are the surface manifestation of subsurface groundwater being indirectly heated by geothermal heat, usually magma (magma is underground lava, lava is magma erupted at the surface). Environments where hot springs occur are associated with their eruptive counterparts called a geyser. Subsurface rock with fractures and wide pore space between grains are more conducive to the geostructual plumbing that characterize hot springs/geysers. More acidic and biologically active hot springs are called mudpots. The groundwater will reflect the environment it circulates in and can have wide range of dissolved ions. Once vaporized or brought to the surface groundwater and mobilize any number of compounds. Most geysers are coated in Geyserite, which is a hydrated silica mineral sourced from silica rich bedrock that groundwater interacts with. Some environments, called fumaroles, will have no circulating liquid water and will be dominated by volcanic vapor and groundwater steam. Fumaroles are the nasty ones because they tend to have vaporized hydrochloric acid and sulfur oxides in the steam. These emitted gases derive from cooling of complex magmas that contain sulfur, fluorine, hydrogen, and carbon.
"You see," my colleague went on, "one doesn’t see exactly where or how to move. Believe me, this is true. Each act, each occasion, is worse than the last, but only a little worse. You wait for the next and the next. You wait for one great shocking occasion, thinking that others, when such a shock comes, will join with you in resisting somehow. You don’t want to act, or even talk, alone; you don’t want to ‘go out of your way to make trouble.’ Why not?—Well, you are not in the habit of doing it. And it is not just fear, fear of standing alone, that restrains you; it is also genuine uncertainty.
From, They Thought They Were Free