Pi (π)
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Description
Book Introduction
A book only of pie, for pie, and by pie!
Japan's dark bestseller has been published in our country too!
Pi, the 3 trillionth digit of which has been discovered, is a representative irrational number in nature.
Because it's endless, people often calculate pi to test the performance of new computers.
Historically, anyone with a background in the discipline of 'mathematics' has been captivated by the mysterious allure of this number.
We've all had the experience of calculating, memorizing, or struggling with the limits of pi at least once.
Of course, even in modern times, any YouTuber who deals with the topic of 'mathematics' talks about this 'pi'.
Pie is proof that numbers are that attractive.
This book delves deeply, very deeply into the allure of such pies.
This book goes into a whopping 1,000,000 digits below the decimal point of pi.
Will you actually be able to read it once before you die? I can confidently say that 99.999% of people on Earth will not be able to do so.
But you must have felt it too.
This book, which contains such fascinating numbers that cannot be read, somehow stimulates the desire to own it.
Japan's dark bestseller has been published in our country too!
Pi, the 3 trillionth digit of which has been discovered, is a representative irrational number in nature.
Because it's endless, people often calculate pi to test the performance of new computers.
Historically, anyone with a background in the discipline of 'mathematics' has been captivated by the mysterious allure of this number.
We've all had the experience of calculating, memorizing, or struggling with the limits of pi at least once.
Of course, even in modern times, any YouTuber who deals with the topic of 'mathematics' talks about this 'pi'.
Pie is proof that numbers are that attractive.
This book delves deeply, very deeply into the allure of such pies.
This book goes into a whopping 1,000,000 digits below the decimal point of pi.
Will you actually be able to read it once before you die? I can confidently say that 99.999% of people on Earth will not be able to do so.
But you must have felt it too.
This book, which contains such fascinating numbers that cannot be read, somehow stimulates the desire to own it.
- You can preview some of the book's contents.
Preview
index
Inside cover
π=3.
1,000,000 digits of pi
Learn more about Pi (100 million digits, 1 billion digits)
π=3.
1,000,000 digits of pi
Learn more about Pi (100 million digits, 1 billion digits)
Into the book
1415926535 8979323846 2643383279 5028841971 6939937510 5820974944 5923078164 0628620899 8628034825 3421170679 8214808651 3282306647 0938446095 5058223172 5359408128 4811174502 8410270193 8521105559 6446229489 5493038196 4428810975 6659334461 2847564823 3786783165 2712019091 4564856692 3460348610 4543266482 1339360726 0249141273 7245870066 0631558817 4881520920 9628292540 9171536436 7892590360 0113305305 4882046652 1384146951 9415116094 3305727036 5759591953 0921861173 8193261179 3105118548 0744623799 6274956735 1885752724 8912279381 8301194912 9833673362 4406566430 8602139494 6395224737 1907021798 6094370277 0539217176 2931767523 8467481846 7669405132 0005681271 4526356082 7785771342 7577896091 7363717872 1468440901 2249534301 4654958537 1050792279 6892589235 4201995611 2129021960 8640344181 5981362977 4771309960 5187072113 4999999
From the first decimal place of pi to the Feynman point (the number range of 999999 listed from the 762nd decimal place)
--- p.3
3650277123 6010262637 1140850249 3754519972 3881184972 0048529540 7605375755 0486334985 1760393434 0365895296 0860734480 5531229553 3568821456 7118057604 7588419420 5834963384 5421653770 2022628873 2032814262 7192419113 4698071535 0623640604 8801061017 6139643065 5066646671 4597747927 5127501313 3465967646 3960699440 5703118605 6087812280 6328967816 5765372750 6296728357 6263974828 3846472950 1891798560 4824919850 0799160923 2399766719 6476783301 2638465080 8804283111 0985025546 6129686185 5650350012 3610685297 4356644656 1984920921 1012663758 3119546240 1126619489 3008382843 865999999
From the 192501st decimal place of pi to the second Feynman point (the number range of 999999 listed from the 193039th decimal place)
From the first decimal place of pi to the Feynman point (the number range of 999999 listed from the 762nd decimal place)
--- p.3
3650277123 6010262637 1140850249 3754519972 3881184972 0048529540 7605375755 0486334985 1760393434 0365895296 0860734480 5531229553 3568821456 7118057604 7588419420 5834963384 5421653770 2022628873 2032814262 7192419113 4698071535 0623640604 8801061017 6139643065 5066646671 4597747927 5127501313 3465967646 3960699440 5703118605 6087812280 6328967816 5765372750 6296728357 6263974828 3846472950 1891798560 4824919850 0799160923 2399766719 6476783301 2638465080 8804283111 0985025546 6129686185 5650350012 3610685297 4356644656 1984920921 1012663758 3119546240 1126619489 3008382843 865999999
From the 192501st decimal place of pi to the second Feynman point (the number range of 999999 listed from the 193039th decimal place)
--- p.41
Publisher's Review
Dreaming of infinity, one small step towards seeing the end of the realm of possibility!
I share what I learned and how to use it while making a pie book.
*Pi has 99,959 digits of 0, 99,758 digits of 1, 100,026 digits of 2, 100,229 digits of 3, 100,230 digits of 4, 100,359 digits of 5, 99,548 digits of 6, 99,800 digits of 7, 99,985 digits of 8, and 100,106 digits of 9 to the first millionth decimal place.
*Starting from the 762nd digit after the decimal point, there are 6 consecutive 9s, which are called Feynman Points.
Physicist Richard Feynman reportedly enjoyed memorizing this part of pi.
However, 999999 appears again from the 193,034th time.
*How to use this book
1.
Randomly extract a random number
: Close your eyes, open the book anywhere, and point your finger at a random part of it. That part is a random number.
2.
Put it on the bookshelf and pretend to be a math expert
: The luxurious and stylish hardcover binding makes it look like a great thesis.
3.
Memorizing pi as a hobby
: 〈Moving〉 Couldn’t it be possible to fly in the sky like Bongseok?
4.
Reading when you can't sleep
: You will absolutely fall asleep before you finish reading this book.
*How to play this book
1.
A game to guess the nth decimal digit of pi with a probability of 1/10
2.
Say the nth number on the nth row of the nth chapter, then confirm and the person with the higher number wins.
3.
Buy Volume 2 and play a game with your friends to quickly find your birthday.
4.
Memorize a random line (100 lines) from a book quickly to prevent dementia.
So I would like to recommend this book to the following readers!
-People whose heart flutters when they see a circle
-People whose birthday is March 14th
-College student with a GPA of 3.14
-People who like math
-Elementary, middle, and high school math teacher
-College students and professors from all mathematics-related departments
-People who love pi
-People whose hobby is collecting strange books
-Someone who feels good when there are a lot of numbers
-Anyone who loves pie (including pie eater)
- Anyone who wants to win the Fields Medal by finding the rule of pi
-People with insomnia
-People who enjoy challenging the impossible
I share what I learned and how to use it while making a pie book.
*Pi has 99,959 digits of 0, 99,758 digits of 1, 100,026 digits of 2, 100,229 digits of 3, 100,230 digits of 4, 100,359 digits of 5, 99,548 digits of 6, 99,800 digits of 7, 99,985 digits of 8, and 100,106 digits of 9 to the first millionth decimal place.
*Starting from the 762nd digit after the decimal point, there are 6 consecutive 9s, which are called Feynman Points.
Physicist Richard Feynman reportedly enjoyed memorizing this part of pi.
However, 999999 appears again from the 193,034th time.
*How to use this book
1.
Randomly extract a random number
: Close your eyes, open the book anywhere, and point your finger at a random part of it. That part is a random number.
2.
Put it on the bookshelf and pretend to be a math expert
: The luxurious and stylish hardcover binding makes it look like a great thesis.
3.
Memorizing pi as a hobby
: 〈Moving〉 Couldn’t it be possible to fly in the sky like Bongseok?
4.
Reading when you can't sleep
: You will absolutely fall asleep before you finish reading this book.
*How to play this book
1.
A game to guess the nth decimal digit of pi with a probability of 1/10
2.
Say the nth number on the nth row of the nth chapter, then confirm and the person with the higher number wins.
3.
Buy Volume 2 and play a game with your friends to quickly find your birthday.
4.
Memorize a random line (100 lines) from a book quickly to prevent dementia.
So I would like to recommend this book to the following readers!
-People whose heart flutters when they see a circle
-People whose birthday is March 14th
-College student with a GPA of 3.14
-People who like math
-Elementary, middle, and high school math teacher
-College students and professors from all mathematics-related departments
-People who love pi
-People whose hobby is collecting strange books
-Someone who feels good when there are a lot of numbers
-Anyone who loves pie (including pie eater)
- Anyone who wants to win the Fields Medal by finding the rule of pi
-People with insomnia
-People who enjoy challenging the impossible
GOODS SPECIFICS
- Date of issue: January 15, 2024
- Format: Hardcover book binding method guide
- Page count, weight, size: 204 pages | 474g | 150*225*17mm
- ISBN13: 9791191053296
- ISBN10: 1191053296
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