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It can be called:* Multidigit * Greater or equal to ten
A 3 or 4 digit number.
3 digit numbers are lessthan 4 digit numbers
The answer is 4. You get the answer by trying the example of the largest two digit number, 99. 99 x 99 = 9801. This has four digits, so you can't get more digits than this by multiplying two two digit numbers. * * * * * True, but you CAN have fewer: 10*10 = 100, which is only three digits! 1490 of the 8100 2 digit x 2 digit multiples have products of 3 digits, the rest have 4 digit products.
There is no such ratio that applies for all single-digit and double-digit integers.
The product may not have any zeros if there are "carries" from a product at a lower level.
It can be called:* Multidigit * Greater or equal to ten
Due to carries, in the multiplication a zero can change to a non-zero and vice versa.
A 3 or 4 digit number.
Due to carries, in the multiplication a zero can change to a non-zero and vice versa.
a defanation for digtus would be finger or toe
That refers to a number that has more than one digit. For example, 416 is a number; the individual symbols, 4, 1, and 6, are its digits. Since the number 416 has more than one digit, it is multidigit.
Just the way it is sometimes.
3 digit numbers are lessthan 4 digit numbers
The answer is 4. You get the answer by trying the example of the largest two digit number, 99. 99 x 99 = 9801. This has four digits, so you can't get more digits than this by multiplying two two digit numbers. * * * * * True, but you CAN have fewer: 10*10 = 100, which is only three digits! 1490 of the 8100 2 digit x 2 digit multiples have products of 3 digits, the rest have 4 digit products.
The answer will depend on how many digits there are in each of the 30 numbers. If the 30 numbers are all 6-digit numbers then the answer is NONE! If the 30 numbers are the first 30 counting numbers then there are 126 combinations of five 1-digit numbers, 1764 combinations of three 1-digit numbers and one 2-digit number, and 1710 combinations of one 1-digit number and two 2-digit numbers. That makes a total of 3600 5-digit combinations.
There is no such ratio that applies for all single-digit and double-digit integers.