«12. . .5,5555,5565,5575,5585,5595,5605,561. . .7,9127,913»
From Wikipedia:unusual articles?
Yup
Double yup
Dabberwocky and Beatitas
Beatitas if you wanna continue the rp nows the time cause I have little enough homework that I won’t be doing it now (and I did it in the library but not that much), also it’s 11:34 so I’m not gonna be awake for more than an hour
Here’s where we left off
https://en.m.wikipedia.org/wiki/Montreal–Philippines_cutlery_controversy Wonder what school it was at, I might know it if its an English one
Nope, don’t know it
Congrats Beat you’re highest in the region in integrity, a whole 2% more than me, the number 12!
Dabberwocky and Beatitas
Dabberwocky what’s the most efficient strategy for transferring wealth by cards using puppets, is there only a particular type of card you should transfer and that kind of stuff
Aight ima go to bed, gnight
Gifting
If you want to transfer bank the best is junking all other cards and then bid on a card your main has. The main should match on the card and the auction should go through. The only bad thing about this is that other nations might sell the card at a lower price
So I prefer gifting since it's much more safer and uses the full potential of the nation
Do u talk to ur self
My political freedom is at its highest
Bruh the charmlessness rank has 3 nations as last place
In the region, of course
Not cost of energy production, because if, for examle, for me 1kW costs 1IC and for you 1kW costs 1VOP that doesn't mean 1IC = 1VOP, because your power might be more expensive but your currency might have a bigger value or vice versa.
I meant it how efficiently you can turn matter into energy in a single reaction/process. If your most efficient way is by fusing hydrogen, value of your currency would be 0.0038SGVV (Standard Goc-Voopmont Value)
Calculations: http://www.wolframalpha.com/input/?i=%28%28deuterium+atomic+mass%29%2B%28tritium+atomic+mass%29-%28helium-4+atomic+mass%29-%28neutron+mass%29%29%2F%28%28helium-4+atomic+mass+%29%2B%28neutron+mass%29%29
That's kinda exploitable. For example, I have one whole universe fully filled with everything the IRL one has. Now, if I form at least one Dyson sphere around all the stars, (assuming all stars in the universe are Sun-like stars) I would get...
Energy released by Sun/s 3.85 x 1026 J/s.
Seconds in 9.5 years - 299,791,044
Seconds in 9.5 b years - 299,791,044,000,000,000
Energy released by Sun in 9.5 b years - 4.31 x 1032 J
Average number of stars in 1 universe - 1,000,000,000,000,000,000,000
Total number of energy released from all stars in a universe - 4.31 x 1039 J
Or in other words...
Total number of energy released from all stars in a universe every second - 3.85 x 1033 J
3.85 x 1033 J every second. Now remember that this is on the assumption that all stars are Sun-like stars. In a real universe, there are bound to be a variety of stars. Meaning that the value could be way more. Also, several nations have more than one universe. If they decided to implant Dyson spheres on every single star in every single universe they own, their currency would literally skyrocket
Also please be let known I am not an expert in this and my calculations may be incorrect
Not how much energy you can get in total, but a fraction of how much mass can you turn into energy.
Stars are fusion reactors but they can fuse more than just hydrogen so a dysonsphere would be the total sum of hydroden's ,helium's, ... (for simplicity all K and L elements') fusion mass loss fractions (I don't know what else to call it).
Neither am I, I'm just working my math knowledge and the internet
I understand the rest, but not "a fraction of how much mass can you turn into energy."
TL;DR
How much matter per unit mass you "destroyed" to "create" energy.
If you have Xkg of hydrogen and you use it in a fusion reactor, after all of the hydrogen is turned into helium, you can notice that the output helium has less mass that the input hydrogen, you might think that it just broke the first law of thermodynamics, but it didn't, the matter was turned into energy, because E = m * c2, if you were to multiply the mass of the input hydrogen by the fraction, you'd get how much matter was "lost", you can then replace the m in the equation above with the number you got to calculate how much energy you "created".
But...
What if I use energy to create the energy
Then you broke the first law of thermodynamics
«12. . .5,5555,5565,5575,5585,5595,5605,561. . .7,9127,913»
Advertisement
