500,000999,999750,000800,001699,475
Even if you ignore decimals and stick to whole numbers, there are more than 86.4 million of them in that range. We'll have to get back to you on that.
Infinitely many numbers.1 million and 1 whole numbers . Although, technically 34 million, itself, would not be rounded. This would comprise the numbers from [33,500,000, 34,500,000]. In the first case the 5 is rounded up while in the second it is rounded down. This is consistent with the rule of "Round up or down so that the new last digit is even". This is the default rounding mode used in IEEE 754 computing functions and operators.
Whole numbers are a proper subset of decimal numbers. All whole numbers are decimal numbers but not all decimal numbers are whole numbers.
Different whole numbers are always whole numbers, but I suspect you meant to ask about the difference between whole numbers. You can subtract two whole numbers and get a negative result. Whole numbers can't be negative.
500,000999,999750,000800,001699,475
900,000,001. 900 million and one (when we talk whole numbers)
999 999. 1 million and 2 million aren't counted. It is only the number inbetween. so from 1000001, 1000002,.........1999998, 1999999 which is 999 999 numbers
You will lose most of the information if you are working mainly with numbers smaller that 500,000. But in that case you should not be rounding to the nearest million but to a lesser degree.
16,500,000. One million is 1,000,000, so you add 6 zeroes to whole millions. 5 million is 5,000,000, for example.
80,007,941 = eighty million, seven thousand, nine hundred forty-one.
Even if you ignore decimals and stick to whole numbers, there are more than 86.4 million of them in that range. We'll have to get back to you on that.
Infinitely many numbers.1 million and 1 whole numbers . Although, technically 34 million, itself, would not be rounded. This would comprise the numbers from [33,500,000, 34,500,000]. In the first case the 5 is rounded up while in the second it is rounded down. This is consistent with the rule of "Round up or down so that the new last digit is even". This is the default rounding mode used in IEEE 754 computing functions and operators.
Whole numbers are a proper subset of decimal numbers. All whole numbers are decimal numbers but not all decimal numbers are whole numbers.
All whole numbers are decimal numbers.
The set of rational numbers includes all whole numbers, so SOME rational numbers will also be whole number. But not all rational numbers are whole numbers. So, as a rule, no, rational numbers are not whole numbers.
Different whole numbers are always whole numbers, but I suspect you meant to ask about the difference between whole numbers. You can subtract two whole numbers and get a negative result. Whole numbers can't be negative.