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The largest number you could make with ONLY the digits 2, 6, and 4, assuming the use of exponents, is 2 to the power of 4 to the power of 6 = 2^(4^(6)) = 24096 this equals 1.044 X 101233 Without the use of exponents or additional symbols, the largest number you could make would of course be 642.
You could be 154 but the digital sum of 154 is 1 and not 10
The largest prime number yet discovered has 17,425,170 digits. That does not have a specific name. Perhaps you could come up with one.
78 Good guess, but 7 + 8 = 15, not 9; so that answer is incorrect. The correct answer is 54. 5 + 4 = 9 45 is 9 less than 54. * * * * * If the sum of the digits of a 2-digit number is 9, and if the order of the digits is reversed the new number will be a multiple of 9 different from the original. It could be bigger or smaller, and the difference could be 18 or 27. For example, 7+2 = 9 and 72 -27 = 45 (which is not 9 but a multiple of 9)
It could be: 4760 = 1
This number could be 120 or 240.
The largest number you could make with ONLY the digits 2, 6, and 4, assuming the use of exponents, is 2 to the power of 4 to the power of 6 = 2^(4^(6)) = 24096 this equals 1.044 X 101233 Without the use of exponents or additional symbols, the largest number you could make would of course be 642.
You could be 154 but the digital sum of 154 is 1 and not 10
The largest prime number yet discovered has 17,425,170 digits. That does not have a specific name. Perhaps you could come up with one.
78 Good guess, but 7 + 8 = 15, not 9; so that answer is incorrect. The correct answer is 54. 5 + 4 = 9 45 is 9 less than 54. * * * * * If the sum of the digits of a 2-digit number is 9, and if the order of the digits is reversed the new number will be a multiple of 9 different from the original. It could be bigger or smaller, and the difference could be 18 or 27. For example, 7+2 = 9 and 72 -27 = 45 (which is not 9 but a multiple of 9)
Consecutive identical digits could be digits that are the same and appear next to one another in a number. For example, the hundreds and tens digits in 1442 could be considered consecutive identical.
It could be: 4*7 = 28
Take your pick: It could be 33: the only composite number with repeated digits It could be 71: the only prime number It could be 4: the only square number It could be 106: the only composite number with all different digits.
Could it be check Digits?
It could be: 4760 = 1
A number is a multiple of 4 if its last two digits are divisible by 4. That means if the last digit is 0, 4 or 8 the last-but-one must be even and if the last digit is 2 or 6 the last-but-one must be odd.
Actually, no In some countries, there are 8 digits in a phone number, such like Australia. In others, there could be 4. Such as the country of Niue!