Rad Future: The Untold Story of Nuclear Electricity and How It Will Save the World - Hardcover

Boemeke, Isabelle

 
9780593716328: Rad Future: The Untold Story of Nuclear Electricity and How It Will Save the World
Hardcover
ISBN 10: 0593716329 ISBN 13: 9780593716328
Verlag: Thesis, 2025

Inhaltsangabe

We’re running out of time. Fossil fuels are choking the planet and renewable energy isn’t cutting it. The solution has been hiding in plain sight all along.

Nuclear.

When most people hear that word, they go to a very bad place: bombs, Chernobyl, hazmat suits, radioactive fallout… the stuff of nightmares. But what if everything you think you know about nuclear is wrong?

In Rad Future, science influencer Isabelle Boemeke shatters the fear and misinformation surrounding this technology and shows how the actual science tells a different story. It turns out that nuclear-generated electricity—nuclear electricity—is our best option for ensuring the future of the planet. Nuclear can power cities, desalinate water, create carbon-free fertilizer, and heat homes, all with the smallest environmental footprint of any energy source.

Boemeke exposes how decades of fearmongering, a few dramatic (but preventable) disasters, and relentless bad PR have convinced the world that nuclear is dangerous when it’s actually the key to an affordable, sustainable future. We’ve fumbled the bag on the cleanest, most powerful energy source we have, and it’s time to fix that.

This isn’t your typical science book. Boemeke’s signature mix of humor, sass, and deep research makes Rad Future a wild ride through the science, history, and future of nuclear electricity. From Cold War politics to Hollywood-fueled paranoia to cutting-edge reactor designs, she details exactly how nuclear works and why it’s our best shot at ending the climate crisis and creating a future of radical abundance. Rad Future is the first truly accessible breakdown of nuclear electricity, and it will leave you feeling stoked about what’s possible.

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Über die Autorin bzw. den Autor

A Brazilian fashion model turned nuclear electricity influencer, Isabelle Boemeke’s path to nuclear advocacy is as unexpected as the message itself. After the 2019 Amazon wildfires and Australia’s catastrophic bushfire season, Boemeke realized the urgency of the climate crisis – and that nuclear was the solution nobody was talking about. Now, she organizes rallies, speaks at global events, and uses her platform to challenge the status quo on energy.

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1: The Dawn of the Atomic Age

The hallways of the stone building are dead silent as fluffy snow falls outside. Most researchers have gone home, but Otto Hahn and Fritz Strassmann are still holed up in their lab, messing with equipment. Fritz looks out the window with his icy blue eyes and zones out for a sec, questioning his choices. A newlywed, he pictures his wife all alone at home, playing a sad tune on the violin. What would he be doing if he weren't a scientist? Hopefully something more fun than spending his nights in a dimly lit room with an old guy and a bunch of beakers.

They have spent all day bombarding uranium-a radioactive element-with neutrons. Lots of physicists, including the famous Enrico Fermi, have done this before. But Otto and Fritz are chemists, and their analysis is showing them something new.

Fritz gets up from his hard metal stool and walks across the room, trying to remember what it feels like to have blood flowing to his legs. He's had enough science for the day; he's ready to go home. But just as he is about to hang up his white lab coat and make a break for it, Otto convinces him to run the experiment one more time.

Their lab setup looks like a scene straight out of a B movie about mad scientists, complete with bubbling beakers and humming gadgets. They set up their uranium sample for what feels like the millionth time, hit it with neutrons, and do another chemical analysis of it. Maybe this time they'll be able to figure out what the hell is happening.

According to the current scientific understanding, they should be detecting something heavier than uranium. But Otto and Fritz are detecting barium, an element that is a lot lighter than uranium. Almost half its weight, to be precise . . .

They rally and repeat the experiment a bunch of times, probably hoping the universe will start making sense again. But it doesn't. Each time, they get barium. It's almost like the uranium atom is splitting into completely different elements. Wild. By now, it's very late and they're either geniuses or completely unhinged. Fritz and Otto decide to call it a night and write a letter in the morning to their colleague Lise Meitner, a badass physicist, who's in Sweden.

When Lise gets the letter, she's as confused by the results of the experiment as they are. She teams up with her nephew, fellow physicist Otto Frisch, to try and figure this out. They decide to go for a walk in the snow, probably because the best ideas happen when you are freezing. After a few minutes of walking and shivering, they come up with a crazy idea: What if the nucleus of the uranium atom is splitting in half and releasing a lot of energy in the process? After crunching some numbers on scraps of paper, they realize they're onto something huge-like world-changing huge.

Less than a month after their wild night at the lab, Otto and Fritz publish a paper on their observations, but they won't say an atom had split. "As nuclear chemists we cannot bring ourselves to take this step, so contradictory to all the experience of nuclear physics." That seems fair, to be honest. Who wants to go down in history as the guys who cried split atoms over some spilled barium?

But Lise Meitner couldn't care less if others think she is delulu. She has the math to prove it. Lise and her nephew Otto replicate the experiment for themselves and publish the first two official papers on what they dub "nuclear fission." Legendary.

Just imagine how psyched Meitner, Frisch, Hahn, and Strassmann get when they realize their discovery will unlock the powerful energy trapped inside the atom and usher in a whole new era. From now on, the world will never be the same. Except for one detail. The real-life version of this story took place in 1938 . . . in Germany.

What Could Have Been

Word of the discovery of nuclear fission gets out quickly. At the University of Chicago in the United States, scientists jump up from their desks and awkwardly dance in their offices, celebrating the news. Some even start crying. They know this technology is a complete game changer-a source of power so dense that it will put an end to humanity's scarcity era. Never again will we struggle to find enough energy to meet the growing demands of society, a problem that has led to competition, wars, and economic drama. Just a couple of years later, that same group of scientists from the University of Chicago finishes building the world's first nuclear reactor: Chicago Pile-1.

The success of Chicago Pile-1 proves it is possible to get steady energy out of reactors, and countries rush to build their own. Nuclear electricity becomes ridiculously cheap and quickly pops up all over, from Brazil to the United States to India. In a world with unlimited access to clean and cheap energy, things that sounded like science fiction become everyday reality.

Within twenty years of the discovery of nuclear fission, London becomes completely different from the smog-filled mess it once was. The city is so clean you could eat off the streets. Well, not literally, but you know what I mean. As countries use less and less fossil fuel, deaths caused by air pollution dwindle everywhere. Lifespan goes up and things like asthma enter the category of "weird conditions people used to have in the past," like tuberculosis.

In the United States, New York City becomes the poster child of this new era, featuring huge skyscrapers, some powered by mini reactors, sparkling against the night sky. Balconies overflow with plants, creating a sort of vertical jungle. The Hudson River, once a toxic waste dump, is now so clear you could practically see the fish high-fiving each other. Central Park, blessed with fresh air, lush greenery, and the sound of birds, becomes the go-to spot for people needing a break from the city's chaos.

Transportation has a makeover too with electric vehicles kicking gas-guzzlers to the curb. High-speed trains zoom along magnetic tracks, connecting cities and countries, making travel incredibly easy. The annoying sounds of cars, motorcycles, and leaf blowers is replaced by the sounds of nature and people talking to one another. Nuclear-powered ships crisscross the oceans, delivering goods everywhere without spewing out pollution.

Because nuclear power plants take up such a tiny amount of land, green areas spring up around cities and forests flourish, while the planet begins to heal from the gross effects of the Industrial Revolution. Nuclear electricity becomes the backbone for incredible new clean energy tech. It allows us to come up with scaled-down wind turbines that seamlessly blend into buildings. Solar cells cover roofs and surfaces, collecting energy from the sun. Cities become truly clean and green as coal, oil, and methane gas become ancient history.

Economies boom as they have a surplus of energy and don't have to import fossil fuels, allowing nations to put a lot more money into education, healthcare, and research instead. Global cooperation goes up as countries swap nuclear electricity tech and know-how, creating an atmosphere of unity and progress. Energy independence also cuts down the clout of oil-rich nations and leads to a more balanced world stage. Energy conflicts fizzle out, replaced by teamwork on nuclear safety and waste management.

Within forty years of the discovery of nuclear fission, every single human on Earth has access to electricity. Okay, not everyone. There is a small group of people who chose to live "the old school way" by using only firewood and not embracing electricity. But hey, to each their own.

Going all in on nuclear eventually enables us to unleash the full potential of artificial intelligence to help solve the world's hardest problems. We find the cure to most cancers, eliminate all genetic diseases, and keep making people healthier. Nuclear also gives us the...

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Verlag
Thesis
Erscheinungsdatum
2025
Sprache
Englisch
ISBN 10 
0593716329
ISBN 13 
9780593716328
Einband
Gebundene Ausgabe
Anzahl der Seiten
272
Kontakt zum Hersteller
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Verantwortliche Person
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