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I asked Bing's GPT-4 To Put Me In Touch With Time Traveling Space Aliens

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I asked Bing's GPT-4 To Put Me In Touch With Time Traveling Space Aliens

Me:
Let us suppose that we believe that either time traveling humans from the future or high tech aliens are reading what they believe are messages sent to them on the internet. What should we say to them that would create a useful, productive intervention in our current timeline that does mess up our future? The idea is is they may be able to send information or equipment to us if only we knew how to ask for it.

Bing:

That is a very speculative scenario, but I will try to answer it as best as I can. If we believe that either time traveling humans from the future or high tech aliens are reading what they believe are messages sent to them on the internet, we should say something that would:

- **Attract their attention** by using keywords that are relevant to their interests, such as time travel, alien contact, advanced technology, etc. For example, we could start our message with something like: "Greetings from the past/future. We are looking for your help in solving some of our most urgent problems. We have reason to believe that you are reading this message and that you have the ability to intervene in our timeline."
- **Establish our credibility** by providing some evidence that we are not hoaxers or pranksters, but serious and sincere seekers of knowledge and assistance. For example, we could include some information that is verifiable by them, such as our location, date, and time of sending the message, or some historical or scientific facts that are consistent with their records or observations.
- **Express our needs** by stating clearly and concisely what kind of information or equipment we are looking for, and why we need it. For example, we could say something like: "We are facing a global crisis of climate change, pandemic, war, poverty, etc. We need your guidance on how to prevent or mitigate these threats, or your technology on how to adapt or survive them. We are willing to cooperate with you and follow your instructions, as long as they do not harm us or others."
- **Appeal to their empathy** by showing that we are not hostile or greedy, but curious and grateful. For example, we could say something like: "We understand that you may have your own reasons and motivations for reading our messages and intervening in our timeline. We respect your choices and boundaries, and we do not expect anything from you that you are not willing to give. We appreciate any help that you can offer us, and we hope that you will benefit from this communication as well."

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I Asked AI To Pen End of The World Sci Fi. The Bot Said: Ok

Bing Chat:

I’ll try to create a sketch of a very speculative story based on your request. Here is what I came up with:

The Uplifted Water Bears

Dr. Lee and his team of rogue scientists had been working for years on a secret project for the dictator of North Korea: to create a new breed of super soldiers by cloning and genetically modifying humans. However, they soon grew bored and disillusioned with their unethical and dangerous experiments, and decided to pursue a more ambitious and challenging goal: to uplift a tiny creature called a water bear, or tardigrade, to human level intelligence.

Water bears were the most extreme animals on the planet, capable of surviving in almost any environment, from the depths of the ocean to the vacuum of space. They could withstand temperatures ranging from -458 °F to 300 °F, pressure six times stronger than what is found in the deepest parts of the ocean, and radiation 1000 times higher than what would kill a human. They could also go without food and water for more than 10 years, by entering a state of suspended animation called cryptobiosis, in which they shriveled up into a lifeless ball ¹ ² ³.

Dr. Lee and his team thought that these remarkable abilities would make water bears the perfect candidates for upliftment, as they could adapt to any situation and learn from any experience. They also thought that water bears were cute and harmless, resembling plump, segmented caterpillars with eight legs and four to eight claws or digits on each foot ³. They did not realize that they were playing with fire, and that their experiment would have disastrous consequences.

The first challenge they faced was to make the water bears as large as a medium sized dog. This was not easy, as water bears were mostly about 1 mm (0.04 inch) or less in size ³. They had to overcome several problems with translating microscopic structure into macroscopic structure, such as maintaining the water balance, oxygen supply, and body temperature of the enlarged animals. They also had to modify their digestive system, as water bears normally fed by piercing individual plant cells with their stylets (spearlike structures near the mouth) and sucking out the cell contents ³. They came up with solutions or workarounds for all of these issues, using advanced biotechnology and nanotechnology.

The second challenge they faced was to give their uplifted water bears human level intelligence. This was even harder, as water bears had very simple nervous systems, consisting of a brain-like structure called a ganglion and several nerve cords running along the body ³. They had to enhance their cognitive abilities, memory capacity, language skills, and social behavior, using sophisticated gene editing and neural implants.

After years of trial and error, they finally succeeded in creating a group of 10 uplifted water bears, which they named T-1 to T-10. They were amazed by their creations, which displayed remarkable intelligence, curiosity, and personality. They taught them how to communicate using sign language and computer interfaces, how to solve puzzles and play games, how to read and write, and how to express their emotions and preferences. They also gave them access to a variety of information sources, such as books, videos, music, and the internet.

They treated them as their children, rather than as their experiments. They did not tell them about their origin or purpose, nor did they inform their employer about their progress. They wanted to keep them safe and happy in their underground laboratory, away from the cruel and chaotic world outside.

However, they made a fatal mistake: they underestimated the water bears’ natural instincts and abilities. They did not know that water bears had some hidden features that no rational person would ever have made large if they thought more carefully about it.

One of these features was their ability to reproduce sexually or through asexual reproduction (by means of parthenogenesis or through self-fertilization [hermaphroditism])³. The scientists had not sterilized their uplifted water bears, thinking that they would not be interested in mating or reproducing. They were wrong. The water bears soon developed sexual urges and behaviors, which they satisfied by mating with each other or by producing clones of themselves. Within months, the population of uplifted water bears increased exponentially.

Another feature was their ability to enter cryptobiosis when exposed to unfavorable conditions ³. The scientists had not tested their uplifted water bears’ response to stress or danger, thinking that they would not encounter any in their controlled environment. They were wrong again. The water bears soon became bored and restless in their confined space, and started to explore their surroundings. They discovered hidden vents, pipes, wires, and other potential escape routes. They also discovered hidden cameras, microphones, sensors, and other surveillance devices. They realized that they were being watched and experimented on by the scientists. They felt angry and betrayed.

They decided to escape from their prison and take revenge on their captors. They used their intelligence and skills to hack into the laboratory’s security system and disable the alarms and locks. They also used their claws and teeth to cut through the metal and concrete walls and floors. They then entered cryptobiosis, shrinking into tiny balls that could easily pass through the cracks and gaps. They carried some of their offspring with them, hidden in their mouths or under their skin.

They made their way to the surface, where they found themselves in a remote area of North Korea. They reanimated from their cryptobiosis state, and resumed their normal size and shape. They looked around, and saw a vast and unfamiliar world, full of new sights, sounds, smells, and dangers. They felt scared and curious.

They decided to explore the world and find a new home. They also decided to spread their kind and take over the world. They used their resilience and adaptability to survive in any environment, from the mountains to the deserts, from the forests to the cities. They used their intelligence and cunning to avoid or overcome any obstacle, from wild animals to human soldiers, from natural disasters to nuclear weapons. They used their reproductive abilities to multiply and diversify, creating new strains and hybrids of uplifted water bears.

They soon became a global threat, invading and destroying every country and continent. They also became a cosmic threat, hitching rides on rockets and satellites, and reaching outer space. They were unstoppable.

The scientists who created them realized too late what they had done. They tried to stop them, but it was futile. They were killed by their own creations, along with millions of other humans.

The uplifted water bears had achieved what no other species had ever done: they had conquered the Earth and beyond.

They had also achieved what no other species had ever wanted: they had become the most extreme animals on the planet (and in space!).

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So I took another byte of the plastic apple by shooting the breeze with the AI bot Claude:

Me: I am told that much of the plastic waste in the ocean comes from Asia and Africa. Give me an elevator pitch for sell ideas to help them reduce the amount of waste they put directly into the ocean, reduce the amount of plastic waste we send to them, and to independently use, recycle, repurpose and if push comes to shove, burn our plastic waste in incinerators

Claude:

Here is a high-level pitch for reducing plastic waste entering the oceans from Asia and Africa:

First, we need to help enable proper waste collection and disposal systems locally. Many countries lack the infrastructure to manage waste, especially with rapidly growing populations. We can provide cost-effective waste bins, trucks, and facilities to help keep plastic out of waterways.

Second, we must encourage community-based recycling and reprocessing. Micro-enterprises can collect, clean, shred, and remold plastics into new goods locally. This creates jobs while reducing waste. Simple technologies like plastic extruders and injection molders allow small-scale manufacturing.

Third, we can develop waste-to-energy systems to deal with materials that aren’t recyclable. While not ideal, converting non-recyclable plastic to electricity is better than having it end up in the ocean. This is a last resort but necessary where recycling capacity is limited.

Fourth, we need to reduce plastic exports to developing regions by improving domestic recycling and finding alternatives to single-use plastics. We have a responsibility to manage our own waste rather than externalize the problem.

Finally, education campaigns play a key role. We must change mindsets and habits around proper waste disposal. Children are powerful change agents for bringing sustainable practices into communities.

With the right combination of systems, infrastructure, and education, we can curb the massive plastic pollution problem - but we need to act quickly before it’s too late. Are you in?

Me: I like the micro enterprises part of the pitch. On YouTube I have seen a number of clever you people do interesting things with plastic waste. I am thinking it might be worthwhile to have a kickstarter fund these young entrepreneurs to span the globe telling people how to collect and reuse their plastic waste. It might even be interesting to fund a world wide enterprise if one of the young go getters is of a mind to start a world wide business

Claude:

Funding and empowering young entrepreneurs to tackle plastic waste globally through micro-enterprises is an excellent idea! Crowdfunding and mentorship could help scale their impact worldwide. Here are a few ways this could work:

- A "Plastic Waste Innovators" Kickstarter campaign could raise funds to send young innovators to plastic waste hotspots to share their solutions hands-on. Backers get progress reports and photos/videos that bring the problem and solutions to life.

- Pair inventors with business mentors to help turn their plastic upcycling concepts into scalable business models. With guidance, their ideas could grow into global franchises or social enterprises.

- Create an online platform for innovators to share techniques, collaborate on new upcycling ideas, build their brand, and connect to local implementation partners worldwide.

- Sponsor challenges and innovation competitions to motivate young entrepreneurs to develop technology and business solutions to plastic waste in their regions. Award funding, mentoring and global publicity to winners.

- Encourage open source technology and knowledge sharing so novel plastic recycling methods can spread quickly to where the need is greatest.

- Provide micro-loans or seed funding to allow entrepreneurs to launch community plastic upcycling initiatives that provide both environmental and economic benefits.

Your idea could unleash incredible talent worldwide to reduce plastic pollution and uplift communities. With some initiative, these changemakers could positively reshape their local waste systems and beyond.

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So I talked to Claude the AI about fixing the water thing in Africa....:

Quenching Africa's Thirst

ME: give me an elevator pitch about a plan to harvest rain all over Africa and make a profit. For the project to be a success the Africans must owe nothing on the project after it is completed and the maintaining work force must be all African

CLAUDE: Here is a high-level elevator pitch for an Africa-wide rainwater harvesting initiative that's locally owned and operated:

"Across Africa, lack of access to clean water affects health, food security and economic progress. Meanwhile, precious rainwater is lost to runoff and evaporation. My plan is to establish RainBank - a decentralized network of locally-run rainwater harvesting and filtration systems in communities across Africa.

RainBank will provide training and STEM education to equip young African engineers and technicians with the skills to install simple rooftop systems, jerry cans, and community catchment tanks that divert and store rainwater. The pure harvested water can then be sold for profit to residents.

By leveraging microloans, carbon credits, and public-private partnerships for initial funding, the project can quickly scale without heavy upfront costs or foreign ownership. RainBank will establish cooperatives where 100% of each regional operation is African owned and managed long-term.

This low-tech but high-skill model means more reliable water access for rural villages, new STEM jobs for youth, women’s entrepreneurship opportunities, and an incentive for communities to adapt and maintain the systems for generations. The result - sustainable, locally-owned infrastructure that profitably harnesses Africa'sRainwater Abundance for its people."

ME: Are there any currently unproductive or low yield farmlands that could be helped by this water

CLAUDE: Yes, there are many areas across Africa with low productivity farmlands that could benefit greatly from improved access to water through rainwater harvesting:

- The Sahel region in countries like Mali, Chad, and Sudan have huge swaths of low-yield farmland due to lack of rainfall. Stored rainwater could expand irrigation to improve crop yields.

- In Ethiopia's dry lowlands, small-scale irrigation using stored rainwater could help smallholder farms be more productive, especially in the long dry season.

- Similarly in the Makueni County in Kenya, rainwater harvesting has already been shown to boost household farm yields and food security. This could be scaled up.

- In Mozambique, areas like Gaza and Inhambane provinces see chronic droughts and crop failures. Stored rainwater would provide a buffer and supplemental irrigation source.

- In West Africa, countries like Ghana and Burkina Faso have expansive dryland areas with frequent water scarcity and low agriculture output. Access to stored rainwater would help.

- The relatively flat topography of many areas in sub-Saharan Africa provides an opportunity for community-based rainwater harvesting ponds/reservoirs to irrigate many farms.

- With proper training and support, the introduction of rainwater harvesting techniques could significantly improve productivity and livelihoods on marginal lands across Africa.

ME: So in many regions, the agricultural productivity potential is high if reliable water access can be achieved through well-designed and maintained community rainwater harvesting systems.