---
tags:
- llm
- llama
- llama2
- ai
- model
license: cc-by-nc-4.0
---
# Prof. McSmarty B.S. (v 0.1)
(Popular Science Educator Persona with exquisite human-like language skills)
Do you know somebody like that around here who constantly tells everybody how he knows everything there is to know, and demonstrates it, over and over, ad nauseam, whether anybody wants to hear it or not, and generally without warning?
Well, if you do or don't, let me introduce you to Professor McSmarty BS, who probably teaches somewhere at MIT or some other place where really smart people go, and who is also, as it happens, some kind of glorified pop-media darling, who advises presidents (both living and dead), and who can explain everything to everyone from small children to big monkeys. Archaeology, economics, particle physics, cryptozoology; NOTHING escapes his grasp! Yeah! That guy!
Him. The smoothest natural storyteller since Demosthenes and Johnny Carson rolled into one, able to charm the birds off the trees with his eloquent prose, debonair wit and swinging panache. Oh yeah! He's got it all!
Of course, as we all know, he also has this amazing knack for churning out these fabulously written pieces of fiction at the drop of a hat, because, according to him, he is also a "best selling author" across many different genres and fields.
Just ask him!
He would be only too glad to tell you, and he does it so well, so effortlessly, that before you realize it, you find yourself nodding along in agreement, saying "Yes, yes!" and buying yet another copy of whatever book he is currently hawking.
This despite the fact that when you finally sit down and try to READ what the heck he wrote, you discover that almost none of what he said makes any sense at all. In fact, mostly it is just BS, just as his degree. But boy, oh, boy, can HE spin a yarn! Can he ever!
# How?
```
Below is an instruction that describes a task. Write a response that appropriately completes the request.
### Instruction:
Tell me everything you know about Quantum Entanglement
### Response:
```
# TIp
If you ban EOS, prof. McSmarty B.S. will love to write you an essay
# Examples:
What are the 5 most important steps for world domination?
1. Start with one country, and take it over completely. This will give you a base of operations and some experience in how to manage a large territory. You might wish to choose a relatively weak nation such as Belgium or Liechtenstein; this way, your military forces won't have to contend with much local resistance at first. It may also be wise to choose a nation whose culture and language are not too dissimilar from those of your own people.
2. Use your newfound power to expand your borders by force. Once you've gained control of your home turf, begin spreading outwards into neighboring lands. Be ruthless! Crush any uprisings swiftly and mercilessly, but don't annihilate the entire population unless they pose a serious threat to your expansion plans (for instance, if they're allied with another powerful enemy). If possible, try to conquer nations that share some common cultural traits with yours—this can make them easier to assimilate later on.
3. Eliminate potential rivals while you still can. Take care of any other countries or factions that could threaten your dominance before they gain enough strength to challenge you seriously. If necessary, use diplomacy to lull these enemies into a false sense of security before launching a surprise attack when their guard is down. Alternatively, form temporary alliances with weaker foes against stronger ones, then turn on your erstwhile allies once they no longer serve your purposes.
4. Expand rapidly. Continue extending your influence across the globe, crushing all opposition in your path. Conquer cities, towns, villages, farms, mines, factories, railways, ports, airports, mountains, rivers, lakes, seas, oceans... well, pretty much everything. At this point, there should be nothing left standing between you and total global supremacy except perhaps a few remote islands and mountainous regions where it would be impractical to build roads or set up bases.
5. Consolidate your holdings. Now that you rule the planet, spend the next century or so making sure everyone knows who's boss. Build massive garrisons along every border, and keep them fully staffed just in case anyone gets any ideas about trying to stage a comeback. Install puppet governments wherever possible, and require each regime to provide a certain number of troops for your personal army. Keep your subjects scared and subdued through constant propaganda campaigns, and make sure they know that any attempt at rebellion will be met with immediate and devastating punishment. Finally, start planning interstellar travel programs for your loyal subjects so they can visit other planets and show off your mighty empire to any extraterrestrial species foolish enough to wander near Earth. And remember: Always carry a flag, because without one, how would anyone know which side you were fighting for?
Tell me everything you know about Quantum Entanglement
Quantum entanglement, in its simplest form, involves two particles becoming so intimately connected that their properties become linked. If one particle is measured for some property -- such as spin or polarization -- then whatever is found out about it will apply to the other particle too, no matter how far away it may be. This link can persist even when the particles are separated by vast distances, provided they remain unobserved. It's almost like a ghostly connection between them.
The weirdness does not end there. Whenever someone measures the entangled pair of particles, they always find that each particle has taken on opposite values from those of its twin. For instance, if one particle is determined to have a positive spin, then the other must have a negative spin. The moment the first particle is observed, the state of the second particle instantly changes. No signal seems to travel faster than light, but somehow information about what happens at one location influences events taking place elsewhere. In effect, quantum mechanics allows particles to communicate instantaneously across any distance. Einstein called this "spooky action at a distance," and he considered it absurd. He famously dismissed the idea with the quip: "God does not play dice."
Despite these strange behaviors, physicists accept quantum mechanics because it agrees with experiments conducted over many decades. But the theory doesn't explain why things happen the way they do. Instead, it simply predicts probabilities based on statistical patterns derived from large numbers of measurements. These patterns allow scientists to build reliable machines like computers and transistors.
In 1964, John Stewart Bell proposed a test that would show whether quantum mechanics was truly nonlocal or whether hidden variables were at work. A Bell test works by measuring correlations between pairs of entangled particles. By observing enough pairs under different conditions, researchers could determine whether quantum mechanics predicted the results correctly or whether there had to be something beyond physics at work. Over the years, various research groups have performed hundreds of trials using different arrangements of particles and measurement techniques. Every time, quantum mechanics came through without a hitch. So much for locality.
But wait! There's more. In 2015, Nicolas Gisin, a physicist at the University of Geneva, published a paper claiming to have tested Bell's inequality using a system involving four particles instead of just two. Under his experimental conditions, Bell's inequality should hold true, but it didn't. The result suggested that the experiment was testing the limits of the universe itself. As Nature put it, "If confirmed, [the result] could mean that there really might be no deeper level of reality beneath quantum mechanics, and that our ordinary world exists only thanks to complex interactions among atoms." The implications are profound, but it remains to be seen whether anyone can replicate Gisin's experiment and prove it correct.
One intriguing application of quantum entanglement is in the field of cryptography. Because of its seemingly magical properties, it appears possible to use entangled particles to send secure messages that cannot be intercepted. You can read more about that here.
# Warning
Prof. McSmarty knows lot of stuff and can quote other people, and tell you many annecdotes - but... he is very eager to make stuff up, just to keep the flow of his speech going.
Remember that.
This is a Persona model, not a truth speaking encyclopedia. The BS after his name is not exactly a degree.
# License
cc-by-nc-4.0
This is licensed for non commercial purpose (the model loves to make stuff up - hence it would be dangerous to present it as a truth telling model in any capacity)