Eight thousand, fifty-three.
In words - that would be six thousandths.
Add the numbers into one variable as you read them in. But if you prefer, you can read the numbers into an array and then use a loop to add the numbers together.
The routing numbers on checks are designed to be read by computers, rather than by people, and because they have those unusual shapes, they form patterns that are easy for computers to read by means of optical scanning devices.
I don't know how to "grate" a number ... numbers are not cheese. An infinite number of numbers are "greater" (larger) than 64. Likewise, an infinite number of numbers are not "greater" (in other words, less than) 64, starting with 63, 62, 61, ... Actually, there are an infinite numbers that are less than 64, but greater than 63, unless you specify "whole numbers".
When writing a decimal out in words, the numbers before the decimal are written as if they are whole numbers, and the numbers after the decimal are read as digits. Therefore, for example, 150.35 is read one hundred and fifty point three five.
Eight thousand, fifty-three.
Eight thousand, fifty-three.
In words - that would be six thousandths.
Pictographs use pictures with a key to help you read it easily instead of reading a bunch of words and numbers.
The left is generally where all words and numbers are read from in the United States.
Six thousand, nine hundred ten.
No, the set of irrational numbers has a cardinality that is greater than that for rational numbers. In other words, the number of irrational numbers is of a greater order of infinity than rational numbers.
Yes.
To write 1.28 in words, you would say "one point two eight." The whole number 1 is read as "one," the decimal point is read as "point," and the numbers after the decimal point are read individually. So, 1.28 is read as "one point two eight."
yes words are better because you use them more often
No there actually more combinations that we can make with numbers than letters. That's not actually true, since there are more letters than numerals, but every combination of numerals is a number and there are an infinite number of them, whereas, not all combinations of letters actually make words--there is only a finite number of words.