And it’ll be one of her worst decisions of this campaign
And it’ll be one of her worst decisions of this campaign
Great point, thanks for bringing it up
There are other ways in which we sell our bodies in exchange for resources. A lot of people point to soldiers, but for those of us in knowledge work, we sell our brains in exchange for stress and depression if things aren’t in balance. Think about construction workers who break their wrists drilling down floorboards, or caregivers that expose their immune systems to a high quantity of kids who are likely to spread any bugs they pick up because they don’t know better.
Sex work just involves people selling entertainment or enjoyment in a more intimate setting. The fact that it is intimate doesn’t change that it’s work, and that resources can be exchanged for service.
I think this all comes down to stereotypes specific to a certain culture. Hoping I see my culture in America make it more legal so we don’t have some of the issues that come from this market not being legal
Unfortunately I think casting away Kamala as the pick would do more harm than good. She is the likely candidate. Joe can even make the transition smooth by entrusting the rest of his legacy with her, which is the reason he chose her as a VP in the first place.
People also know the name Kamala Harris, and they’ve known it for years now. It’ll be a huge turn to bring in a new candidate on top and do all of the rallying needed to get votes.
I think Kamala’s success will spend on the VP choice, her administration, and her campaign team more than her herself.
Mark Kelly as Kamala’s VP? Having that balance of ethnicity would help her get the votes. It’s exactly why Obama picked Biden
I mean, if anything, the fact that the Oil & Gas industry uses hydrogen for refining means that there is a possible, robust market for green hydrogen to get into (don’t like this because it means oil is still the focus, when we need to consider green chemistry and stop with oil).
The O&G industry also helped usher in solar PV at an early stage because of the needs of remote power in hazardous environments such as offshore rigs and near potential sources of release like oil tanks (I used to work as an engineer in O&G myself).
There’s actually a lot of work by GE and Mitsubishi to start shipping new gas turbines to be capable of firing a non-zero amount of hydrogen in addition to natural gas. I think some plants are even capable of doing 50/50 hydrogen/natural gas, with that former number increasing year over year.
Hydrogen could outstrip conventional fuels someday. The bottleneck has always been supply though.
If renewables are so abundant and cheap, then we’ll finally have a reason to deploy hydrogen infrastructure on a massive scale (at least in the US). Hell, you look at the major inverter manufacturers for utility PV like Sungrow, and they have containerized electrolyzers ready for implementation. I haven’t done a market survey, but if they’re in the game, then so are other players.
If you want to be convinced of the progress of hydrogen, I would look into the project that Sargent & Lundy is working on in Utah. They’re planning on using a salt cavern for hydrogen storage, and I believe there is a CCGT onsite as well to make use of the generation.
Hydrogen is even on the minds of offshore wind developers like Siemens.
The substance isn’t doomed like others in this thread make it out. There is active interest in the market to develop a supply chain and economy.
Edit: The one thing I don’t see a lot of people talk about though is where the raw materials for this hydrogen will come from… Likely groundwater unfortunately. Since groundwater is already a highly sought after resource for consumption and agriculture, I’m not sure if hydrogen in this way will take off. This is why offshore hydrogen seems to be more promising, but as we see with wave and tidal power, the ocean environment just sucks for any commercialization.
It’s an uphill battle, but the same can be said for the climate crisis in general. Hope we make enough progress before it’s too late.
Locking hydrogen up in ammonia is what the industry looks to be moving to to avoid the problem you describe.
Also, look up the 7 Hydrogen Hubs in the US as an example of this market getting started. There are no downsides to developing a hydrogen market if we’re going to have oodles of excess renewable energy.
Oil & Gas companies didn’t want Solar, Wind, and Storage to proliferate, yet they did because of cost savings.
I think we could start to see that for these alternative-ion batteries if lithium supply ever becomes an issue. There will always be a niche that has the opportunity to grow in the economy. Just takes the right circumstances and preparation
Really hope green hydrogen kicks off. Could begin society’s efuel saga
Redox flow, sodium ion, iron air, etc.
There are some 600+ current chemical-based battery technologies out there.
Hell for me, once sodium is cracked, that shit is so abundant that production wouldn’t have many bottlenecks to get started.
They’re referring to how Thomas Edison created the first electric vehicles back in the 1800s. They might have had a future until Ford introduced assembly lines. Then the rest is history.
The EV1 was the first commercial development in the US following the World Wars, but even before then you had solar EVs being made for science and eclectic racing before then. Think of those weirdly shaped cars only made for 1 driver that have solar panels covering the entire body of the car.
Funny thing is that we’re now seeing some commercial (or soon to be commercial) manufacturers add solar panels in the same way. Just look to Hyundai and Aptera.
I found out this trick when I eating dinner once at my local library. Oddly, it was a kid came up and saw I was watching YT videos. Showed me the tactic, and now I rely on it lol
Well said. I’m a novice in learning about how humans react to adversity, whether personal, sociological, habitational, geological, cosmological, or ontological, so it’s always appreciated when people put more effort to teach when their interlocutor seems to have all but given up on the project. We all should remember that our words posted online don’t necessarily just reach those we’re replying to - there is the public who are reading.
Loving the dialogue because you specifically are willing to bring up examples of spontaneous human cooperation during times of geological hazard. It seems like regular folks do rise to the occasion.
I guess my worry is what happens during times of sociological hazard i.e. war or conflict. It’s one thing for humans to join together and help each other after disasters have happened to them specifically, but if those hazards are being speculated and predicted about so as to happen in the future, I wonder how much regular folks care about it. Look at climate change maybe and the inaction a lot of people take (a lot of action is being taken too, don’t get me wrong, but whether that action is fast enough depends).
I would say that humans have a great ability to react to geological or sociological effects, but as for preparing for or preventing geological or sociological causes, I would say it’s hit or miss.
So are you saying that a caesium-133 atom observed on both the Earth and the Moon to oscillate 9,192,631,770 times will not represent the same absolute span of time?
So, one observer will see those oscillations happen faster than the other?
Does this have to do with the specific gravity fields of both observers, in that those fields affect how the atom oscillates?
Or is there something else I’m missing?
If special relativity is the answer, all good. I’m an electrical engineer trained in classic physics, so I’ll rest knowing that I’d probably need to study that to understand the time differences.
Man I so want to get a treadmill standing desk
OMAHA
I guess it comes down to whether we want to primarily communicate battery size in terms of charge (Coulombs = Amps * Time) or energy (Joules = Watts * Time).
The first metric you multiply by your operating voltage to get the second metric, whereas the second metric you have to divide by your voltage to get the first. Depends on what comes easier to most people.