Under today's modern rules now governig the Roman numeral system the smallest number would be MCDXLIV = 1444 but the ancient Romans would have worked it out as DMCLXVI = 1166 - 500 = 666 and could make it even smaller by rearranging the numerals.
1666 = mdclxvi
The smallest number that can be written using three different Roman numerals is 104, which is written as "CIV" in Roman numerals.
I believe that it would be IIIV because when a smaller roman numeral goes in front of a larger one it subtracts it. IIIV mean two, and the I(1) and V(5) are the smallest roman numerals.
The smallest value Roman numeral using each symbol only once would be MCDXLIV = 1444
The Roman numerals for the number 2 are "II". Consequently, to represent the 2 Australian Olympians using Roman numerals, we would write "II".
1666 = mdclxvi
The smallest number that can be written using three different Roman numerals is 104, which is written as "CIV" in Roman numerals.
I believe that it would be IIIV because when a smaller roman numeral goes in front of a larger one it subtracts it. IIIV mean two, and the I(1) and V(5) are the smallest roman numerals.
The number 947 in Roman numerals would be CMXLVII
The answer depends on how many more millennia they keep using Roman numerals!
MXC
The smallest value Roman numeral using each symbol only once would be MCDXLIV = 1444
The Roman numerals for the number 2 are "II". Consequently, to represent the 2 Australian Olympians using Roman numerals, we would write "II".
The roman numerals that represents the number 985 are : CMLXXXV. There are certain rules that must be followed when using roman numerals. Roman numerals are seldom used like they were about fifty or sixty years ago, it is not as common.
DCCLXIV (can also be DCCLXIIII).
The largest number you can write using Roman numerals without an overline at any symbol is 3999 (MMMCMXCIX), and the largest possible number is 3999999 (MMMCMXCIXCMXCIX, with an overline over the first nine letters.
It is done by using Roman numerals: VI = 6