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"Write a number", said Grandpa
"Which is the shortest number, that is also the largest"
"Shortest?" I asked
"Yup. You can write it with six straight lines, period"
"So you want me to write a shortest largest number?"
Grandpa nodded with a smile, " It is an integer way over a billion too"
Grandpa tells us that we can use six straight lines and a period, so:
According to Wolfram Alpha, the approximate decimal value of11111!is 2.18375673134769091609082425627986195737914744897617... × 10^40129.. which is an integer considerably more than a billion! In fact, more than a billion billions! Or a billion billion of billions! (and so forth and so on for pretty much as long as you want to go multiplying billions together).
The greatest one I could think of is
$^{111!} 11$
which means $11^{11^{^{.^{.^{11}}}}}$ repeated $111!$ times using tetration. (No software can approximate this)
EDIT
Along the same track, I thought of a better one:
$^{^{11} 11} 11$ which is just plain incomprehensible.
My answer would be:
$77^7$
It can be written in six straight lines:
It is an integer way over a billion, too:
$77^5$ is already well into the billions, so $77^7$ definitely fits the criteria!
Maybe:
${\infty}$
shortest number, that is also the largest
Largest is certainty, shortest for use only 1 character
You can write it with six straight lines, period:
/\/\
\/\/, like infinity symbol, and forming a loop(period)
Update:
Inspired by Trevor Powell, Could be enhanced to:
$11^{111!}$, where equal to $10^{10^{180.263855...}}$ by Wolfram, much larger than $11111!$
(Please accept Trevor Powell's if this is the final answer :P)
Six straight lines and a period. The smallest finite projective plane is the Fano plane PG(2,2) (A projective plane is an ordinary plane equipped with additional "points at infinity".)
If this is too abstract then simply consider
$11^{111!}$
(imagine bars) it is much more than a "googol factorial" although much less than the Graham number. Up arrow notation cannot be used because an arrow contains 3 straight lines and the maximal possible value would be 11
The answer can be
$2\pi$
written in 6 straight lines like
because
When dealing with angles, $2\pi$ radians ($360^{\circ}$, 1 full revolution) is usually treated as the largest possible angle (due to periodicity - by the way, Grandpa did actually say the word "period" - since any angle outside of $[0; 2\pi)$ interval can be reduced to the one inside it), and "$2\pi$" is the shortest way to write this angle (shorter, than "360 degrees", "400 gons", "1 revolution" etc.)
My answer would be, in words, 11 to the 11th to the 11th, or 11^11^11. Eleven to the eleventh power is 285,311,670,611, and 285,311,670,611 raised to the eleventh is 1.0198e+126 (according to Google).
Update
I've corrected my order of operations. 11^11^11 should yield 3.701 × 10^297121486764 (https://www.wolframalpha.com/input/?i=11%5E11%5E11)
I was thinking
1/0
If it's simplified and turned into straight lines it would only require 6. While it is undefined, in a way it's also very large.
