1, 2 and 3 fit the bilkl nicely for this, 1+2+3 is 6. 1x2x3 is 6
Any prime numbers of about 66 or 67 digits will do.
240 (two hundred forty)
200*200=400 200+200=400
Yes. But that is true only if the 100 digits do not include 0. Or, if 0 is included, then you consider "0n0" to be a three digit number. Most people would consider is to be a 2-digit number.
All the possible digits (10 of them; 0-9) are multiplied by themselves by the number of digits that can be shown in the lock. (3) This is 103, or 1,000. This certainly shows why guessing is not a good way to break into a numerical lock, especially since three is a rather low number of digits for one!
Any prime numbers of about 66 or 67 digits will do.
1.53 + 1.5 = 4.53 x 1.5 = 4.5
240 (two hundred forty)
200*200=400 200+200=400
Yes. But that is true only if the 100 digits do not include 0. Or, if 0 is included, then you consider "0n0" to be a three digit number. Most people would consider is to be a 2-digit number.
All the possible digits (10 of them; 0-9) are multiplied by themselves by the number of digits that can be shown in the lock. (3) This is 103, or 1,000. This certainly shows why guessing is not a good way to break into a numerical lock, especially since three is a rather low number of digits for one!
1, 2 and 3
0.00909 has three significant digits.
Any three numbers can be added or multiplied together. For example, 2 + 3.3 + pi = 5.3 + pi = 8.4416 (approx) and 2 * 3.3 * pi = 6.6pi
two digits - three and zero
Three significant digits.
102 is the smallest three digit number with different digits.