After millinillion comes a number called "millinillion plus one." In the short scale system, this number would be represented as 1 followed by 3,003 zeros. In the long scale system, it would be represented as 1 followed by 6,006 zeros. This number is extremely large and is rarely used in practical applications.
Yes, it looks like this 10^3003
A multiple of a number is the product of that number and any whole number.
A negative number. A positive number x a positive number = a positive number A negative number x a negative number = a positive number A positive number x a negative number = a negative Hope this helps :D
No.
what is the boron number in an atomic number/
Yes, it looks like this 10^3003
Yes, a millinillion is larger than a googolplex. A millinillion is equal to 10^(3*(10^9)), which is a 1 followed by 3 billion zeros. In contrast, a googolplex is equal to 10^(10^100), which is a 1 followed by a googol of zeros, where a googol is 10^(100). Therefore, a millinillion is significantly larger than a googolplex.
100 Millinillion pennies. That's a 1 followed by 3005 zeros.
Killigon
Yes, theres billinillion and every other number in yenji jems video for example novemnonagintanongentillion so theres nongendecillinovemnonagintanongentillinillion
Oh, dude, a millinillionplex? That's like a made-up number on steroids! Well, technically, a millinillionplex would have a million zeros because of the "milli" part, but seriously, who even came up with that number? Like, calm down with the plexes, math!
If you mean one million then it is: (M) which means 1,000*1,000 = 1,000,000
It’s A Googolplexian. To See How Big It Is We Need To See Another Big Number. Googol. A Googol Is A 1 With 100 Zeros. A Googolplex Is A 1 With Googol Zeroes. A Googolplexian Is A 1 With Googolplex Zeroes. So Yeah. But You Know Million, Billion, Trillion. What’s The Biggest -illion Number. In Many Dictionaries It’s Centillion A 1 With 303 Zeroes. But We Can Go Further. If You Include Every Number Known Even The Ones Not In A Single Official Dictionary. It Is A Millinillion A 1 With 3003 Zeroes! So Conclusion.Googolplexian - Biggest Known NumberCentillion - Biggest -Illion Number (In Dictionaries)Millinillion - Biggest -Illion Number (Including Non-Dictionary Numbers)
It's estimated at 3003 zeros in the American system, though theoretically it may be 6000 in the British system (1x10^3003) or (1x10^6000)
The proposed next number is Millimillion, 10^3006, then Millibillion, Millitrillion, and so on. ---- Here are also some big, but not-in-illion-series numbers: Millinillion = 10^3003 Googleplex 10^10^100 Googleplex is bigger by about 10^96 times but there is Googleplexian = 10^10^10^100 A Googleplexian goes past both of them by a factor of over 1099999999999999999999999999999999999999999999999999 There is also Graham's Number. You can look it up on wikipedia, or read my explanation of it below. Let me begin by instantiating some variables. G = Graham's Number G = g64 The lower case 'g' represents how far you are into the algorithm that determines Graham's Number. When you are 64 steps into the algorithm starting from 'g1', then you have hit Graham's Number. So the 2 questions are, what is the algorithm, and what is g1? To answer what g1 is, follow this explanation. 3^3 = 27. The '^' represents an exponent. Now imagine this. 3^27 OR 3^(3^3) That's 3 to the (3 to the 3rd power) power. Make sense? For the purpose of this, we are going to notate this a little bit differently. 3^(3^3) = 3^^3 3^^3 = about 7.6 Trillion. Now let's take this a step further. 3^^^3 = 3^(3^(3^3)) 3^^^3 = 3 to the about 7.6 trillionth power.... ~about a 140 trillion digit number. Now let's do the unthinkable... 3^^^^3 That's right, 4 carats. It's unimaginable, but that is the value of g1. Now. If you thought that was rediculous, here's the algorithm. to get g2, you need to do the following. g2 = 3^^^^...g1 amount of carrots...^^^^^3 To determine any form of gn, you just take the previous form of g (gn-1), and use that many carrots in the form of: gn = 3^^^^...g(n-1) amount of carrots....^^^^^3 When you get up to g64, you will finally have reached Graham's Number. Keep in mind that g1 is far, far more than a googolplex, and g2 is borderline unfathomable. So to even think about g64 is utter insanity.
(positive number) x (positive number) = positive number (positive number)/(positive number) = positive number (positive number) x ( negative number) = negative number (positive number)/( negative number) = negative number (negative number) x (negative number) = positive number (negative number)/(negative number) = positive number
atomic number = number of proton in an element number of proton = number of electron mass number = number of proton + number of neutron therefore... atomic number = mass number - number of neutrons