It would take about a googolplex - it doesn't make much difference, in this case, whether you are talking about googolplex of nanoseconds, seconds, or millennia. Nor does it make much difference whether you count a million numbers every second, or take a year for each number. In any case, it would be much, much more than the current age of the Universe.
The biggest number known is googolplex which can be measured as = 10(10100) or 1010,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000, 000,000,000,000 Thinking of this another way, consider printing the digits of a googolplex in unreadable, one-point font. One-point font is 0.35145989 mm per digit, so it would take about 3.5 × 1096 meters to write a googolplex in one-point font. The observable universe is estimated to be 8.80 × 1026 meters, or 93 billion light-years in diameter so the distance required to write the necessary zeroes is longer than the estimated universe, so it would not be possible, let alone physically possible to write this number. If i helped please contribute to me :)
Well a googol is a 1 in front of 100 zeros.Therefore a googolplex is 1 in front of a googol amount of zeros.If we were to write it out it would take up aprox. the whole universe.
if you counted one digit for every particle in the universe it would take over a googol universes.
Longer than the human lifespan. If the first humans on the planet started counting and instructed their descendants to keep going and the instructions came down all the way through history to you, you still wouldn't be able to come close.
Oh, dude, a googolplex is like a really big number with a one followed by a googol zeros. So, technically, you could start writing it now and probably finish sometime after the heat death of the universe. But hey, if you've got a spare eternity lying around, go for it!
Actually, it is probably impossible to write out a googolplex in standard form!In exponential (compact) form, a googolplex is 10 to the power of 10 to the power of 100, which is actually quite a lot: 1 followed by 10 to the power of 100 zeroes. That's 10100 zeroes- and a billion is followed only by 9. So it would take an eternity to even write the number of zeroes that would be required to write a googolplex, which can hardly describe the immensity of the task of writing googolplex itself!Imagine this: you've been given the task of counting out one billion zeroes. Considering that there's less than a million seconds in 24 hours, you can probably imagine that this would take a LONG time- probably over 10 days, without stopping. But that's just 109- if you were counting out 1010, it would take TEN TIMES as long to write out! Then there's 1011 ( a hundred times longer), then 1012 (a thousand times longer), then 1013 (ten thousand times longer)...all the way up to 10100, when you would finally reach googolplex. If you could write one zero every second, and even dedicated your entire life to counting out googolplex, you wouldn't even come close to finishing it in your lifetime!
Longer than you could possibly live. Consider this: There are so many zeroes in a googolplex, that to write it from beginning to end would require more space than exists in the known universe. actually there is an answer if you wright 2 digits per second it would take around 1.1x10^82 times the age of the universe (witch is about 1.37x10^10 years)!
I don't believe googlplexplexplex is an official term. Googol and googolplex are incredibly large numbers in themselves, and it would be difficult to consider a number several factors larger. However, if I were to take a guess, it would probably be equal to 10 to the power of 10 to the power of 10 to the power of 10 to the power of 100. I say this is because a googol is equal to 10 to the power of 100, and a googolplex is 10 to the power of 10 to the power of 100. Following this pattern, it seems to be the logical conclusion. To put this value into perspective, if you could write a 1 or 0 every second, it would take more time than the time that the universe has existed to write out all of googolplex-- and that is just how many zeroes it would take to write a googolplexplex, which is the number of zeroes it would take to write googolplexplexplex. Needless to say, a googolplexplexplex-- if it were a real term-- would be an incredibly large value.
It would take about a googolplex - it doesn't make much difference, in this case, whether you are talking about googolplex of nanoseconds, seconds, or millennia. Nor does it make much difference whether you count a million numbers every second, or take a year for each number. In any case, it would be much, much more than the current age of the Universe.
No, 10^10^10^10^10 is not 1 googolplexplex. A googolplex is 10^10^100, which is 1 followed by a googol of zeroes. 10^10^10^10^10 is 1 followed by 10^10^10 zeroes, which is much smaller than a googolplex. A googolplexplex is a hypothetical number that is 1 followed by a googolplex of zeroes. It is so large that it is difficult to even imagine. It would take a googolplex of years to write out the number in decimal notation.
Googolplex is the biggest named number which can be measured as = 10(10100) or 1010,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000, 000,000,000,000( =googol) Thinking of this another way, consider printing the digits of a googolplex in unreadable, one-point font. One-point font is 0.35145989 mm per digit, so it would take about 3.5 × 1096 meters to write a googolplex in one-point font. The observable universe is estimated to be 8.80 × 1026 meters, or 93 billion light-years in diameter so the distance required to write the necessary zeroes is longer than the estimated universe, so it would not be possible, let alone physically possible to write this number.
The biggest number known is googolplex which can be measured as = 10(10100) or 1010,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000, 000,000,000,000 Thinking of this another way, consider printing the digits of a googolplex in unreadable, one-point font. One-point font is 0.35145989 mm per digit, so it would take about 3.5 × 1096 meters to write a googolplex in one-point font. The observable universe is estimated to be 8.80 × 1026 meters, or 93 billion light-years in diameter so the distance required to write the necessary zeroes is longer than the estimated universe, so it would not be possible, let alone physically possible to write this number. If i helped please contribute to me :)
The biggest number known is googolplex which can be measured as = 10(10100) or 1010,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000, 000,000,000,000 Thinking of this another way, consider printing the digits of a googolplex in unreadable, one-point font. One-point font is 0.35145989 mm per digit, so it would take about 3.5 × 1096 meters to write a googolplex in one-point font. The observable universe is estimated to be 8.80 × 1026 meters, or 93 billion light-years in diameter so the distance required to write the necessary zeroes is longer than the estimated universe, so it would not be possible, let alone physically possible to write this number. If i helped please contribute to me :)
Mathematically = No. Googolplex is a number, and you can do all the mathematical operations with it. For example: (2 googolplex) plus (2 googolplex) = 4 googolplex. Infinity is more than any number you can write, and you can't do any mathematical operations with it. Example: (Infinity) divided by (3,000) = still infinity. Another example (I can't resist this): (Infinity) divided by (googolplex) = still infinity. But in our physical universe, nothing is infinite! Here's an example. If you were to fill the universe (its entire volume) with particles and with no empty spaces, it would take about 10^80 particles. Therefore you wouldn't even have enough space in the universe to write the number googolplex!
Well a googol is a 1 in front of 100 zeros.Therefore a googolplex is 1 in front of a googol amount of zeros.If we were to write it out it would take up aprox. the whole universe.
Yes. One googolplex and one. No, though people may say infinity is the largest number because it goes on forever but infinity is NOT a number. Googolplex is the biggest known number which can be measured as = 10^(10^100) or 10^10,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000,000, 000,000,000,000,000,000,000,000,000,000,000,000,000,000 Thinking of this another way, consider printing the digits of a googolplex in unreadable, one-point font. One-point font is 0.35145989 mm per digit, so it would take about 3.5 × 1096 meters to write a googolplex in one-point font. The observable universe is estimated to be 8.80 × 1026 meters, or 93 billion light-years in diameter so the distance required to write the necessary zeroes is longer than the estimated universe, so it would not be possible, let alone physically possible to write this number.