Zero facts for kids



Cardinal 
0, zero, "oh" {{IP Acenˈoʊ}}, nought, naught, nil 

Ordinal  0th (zeroth, noughth) 

Divisors  all other numbers (except itself) 

Binary  0_{2}  
Ternary  0_{3}  
Quaternary  0_{4}  
Quinary  0_{5}  
Senary  0_{6}  
Octal  0_{8}  
Duodecimal  0_{12}  
Hexadecimal  0_{16}  
Vigesimal  0_{20}  
Base 36  0_{36}  
Arabic  ٠,0  
Bengali  ০  
Devanāgarī  ०  
Chinese  零, 〇  
Japanese  零, 〇  
Khmer  ០  
Thai  ๐ 
Zero is a special number. If there are zero things, there are no things at all. There are none. For example, if John has zero hats, that means he does not have a hat at all.
Contents
Symbol
The symbol for the number zero is "0".
Arithmetic with zero
 Adding a number to zero results in that number. For example, adding zero to three gives three. In symbols:
3 + 0 = 3
 Subtracting zero from a number always gives that number. For example, subtracting zero from three gives three. In symbols:
3 − 0 = 3
 Subtracting a positive number from zero always makes that number negative (or, if a negative number is subtracted from zero, it makes the number positive). In symbols:
0 − 3 = −3
 Multiplying a number by zero always gives zero. For example, multiplying fortythree by zero gives zero. In symbols:
43 × 0 = 0
 Dividing zero by a number always gives zero. For example, dividing zero by fortythree gives zero. In symbols:
0 ÷ 43 = 0
 Any number divided by zero has no answer. In symbols:
43 ÷ 0 has an undefined answer.
 Zero divided by zero has no answer. In symbols:
0 ÷ 0 has no answer.
Below are all of the above examples with a few others in a condensed, and generalized form in a tabular layout.
Here in the table below, x represents any number.
Operation  Rule  Example 

Addition  x + 0 = x  3 + 0 = 3 
Subtraction  x  0 = x  3  0 = 3 
Multiplication  x × 0 = 0  5 × 0 = 0 
Division  0 ÷ x = 0 , when x ≠ 0  0 ÷ 5 = 0 
x ÷ 0 is undefined  5 ÷ 0 is undefined  
Exponentiation  0 ^{x} = 0  0^{5} = 0 
x ^{0} = 1  5^{0} = 1  
Root  √0 = 0  
Logarithm  log_{b}(0) is undefined  
Factorial  0! = 1  
Sine  sin 0º = 0  
Cosine  cos 0º = 1  
Tangent  tan 0º = 0  
Derivative  0' = 0  
Integral  ∫ 0 dx = 0 + C 
History of zero
The idea of zero was first thought about in Babylon, India and in Central America at different times. Some places and countries did not know about a zero, which may have made it harder for those people to do mathematics.
Over hundreds of years the idea of zero was passed from country to country. From India and Babylon to other places, like Greece, Persia and the Arab parts of the world. The Europeans learned about zero from the Arabs.
The place of zero as a number
Zero is almost never used as a place number (ordinal number). This means that it is not used like 1, 2, or 3 to indicate the order, or place, of something, like 1st, 2nd, or 3rd. An exception to this is seen in many programming languages.
Some other things about zero:
 The number zero is a whole number.
 The number zero is not a positive number.
 The number zero is not a negative number, either.
 The number zero is a neutral number.
Any number divided by itself equals one, except if that number is zero. In symbols:
0 ÷ 0 = "not a number."
In time, zero means "now". For example, when a person is counting down the time to the start of something, such as a foot race or when a rocket takes off, the count is: "three, two, one, zero (or go)". Zero is the exact time of the start of the race or when the rocket takes off into the sky.
0 as a number
0 is the integer that precedes the positive 1, and follows −1. In most (if not all) numerical systems, 0 was identified before the idea of 'negative integers' was accepted. It means "courageous one" in hieroglyphics.
Zero is a number which means an amount of null size; that is, if the number of your brothers is zero, that means the same thing as having no brothers, and if something has a weight of zero, it has no weight. If the difference between the numbers of pieces in two piles is zero, it means the two piles have an equal number of pieces. Before counting starts, the result can be assumed to be zero; that is the number of items counted before you count the first item and counting the first item brings the result to one. And if there are no items to be counted, zero remains the final result.
While mathematicians all accept zero as a number, some nonmathematicians would say that zero is not a number, arguing that one cannot have zero of something. Others say that if one has a bank balance of zero, one has a specific quantity of money in that account, namely none. It is that latter view which is accepted by mathematicians and most others.
Normally speaking, there was no year zero between 1 BC and 1 AD. More exactly, almost all historians leave out the year zero from the proleptic Gregorian and Julian calendars (that is, from the normal calendar used in Englishspeaking countries), but astronomers include it in these same calendars. However, the phrase Year Zero may be used to describe any event considered so important, that someone might want to start counting years all over again from zero.
0 as a numeral
The modern numeral 0 is normally written as a circle or (rounded) rectangle. In oldstyle fonts with text figures, 0 is usually the same height as a lowercase x.
On the sevensegment displays of calculators, watches, etc., 0 is usually written with six line segments, though on some historical calculator models it was written with four line segments. The foursegment 0 is not common.
The number zero (as in the "zero brothers" example above) is not the same as the numeral or digit zero, used in numeral systems using positional notation. Successive positions of digits have higher values, so the digit zero is used to skip a position and give appropriate value to the preceding and following digits. A zero digit is not always necessary in a different positional number system. Something called bijective numeration is a possible example of a system without zeroes.
The numerical digit zero
0 (zero) is also used as a numerical digit used to represent that number in numerals. It is used to hold the place of that digit, because correct placing of digits affects a numeral's value.
Examples:
 In the numeral 10, which stands for one times ten and zero units (or ones).
 In the numeral 100, which stands for one times a hundred plus zero tens plus zero units.
Telling zero and the letter O apart
The number 0 and the letter O are both round, so what is the difference? The difference is important on a computer. For one thing, a computer will not do arithmetic with the letter O, because it does not know that it should have been a zero.
The ovalshaped zero and circular letter O came into use together on modern character displays. The zero with a dot in the centre seems to have begun as a choice on IBM 3270 controllers (this has the problem that it looks like the Greek letter theta). The slashed zero, looking like the letter O with a diagonal line drawn inside it, is used in oldstyle ASCII graphic sets that came from the default typewheel on the wellknown ASR33 Teletype. This format causes problems because it looks like the symbol , representing the empty set, as well as for certain Scandinavian languages which use Ø as a letter.
The rule which has the letter O with a slash and the zero without was used at IBM and a few other early mainframe makers; this is even more of a problem for Scandinavians because it looks like two of their letters at the same time. Some Burroughs/Unisys computers display a zero with a backwards slash. And yet another convention common on early line printers left zero without any extra dots or slashes but added a tail or hook to the letter O so that it resembled an inverted Q or cursive capital letter O.
The letters used on some European number plates for cars make the two symbols look different. This is done by making the zero rather eggshaped and the O more circular, but most of all by cutting open the zero on the upper right side, so the circle is not closed any more (as in German plates). The style of letters chosen is called fälschungserschwerende Schrift (abbr.: FE Schrift), meaning "script which is harder to falsify". But those used in the United Kingdom do not make the letter o and the number 0 look different from each other, because there can never be any mistake if the letters are correctly spaced.
In paper writing you do not have to make the 0 and O look different at all. Or you may add a slash across the zero in order to show the difference, although this sometimes causes mistakes in the number 0.
Zeroes of a function
Functions are explained in the Function (mathematics) article. If the function f(x) = 0, then x is called a zero of the function f. For example, if the function f(x) is x^{2} − 1, then the zeroes of the function are +1 and −1, because f(+1) = (+1)^{2} − 1 = 0, and f(−1) = (−1)^{2} − 1 = 0.
Zeroes of a function are used because they are another way to talk about solving an equation, which is a main goal in algebra. If we want to solve an equation like x^{2} = 1, then we can subtract the righthand side of the equation from both sides, in this case 1. Whatever we get on the lefthand side, in this case x^{2} − 1, can be called a function f(x). The righthand side has to be zero, because we subtracted it from itself. So f(x) = 0. Finding the zeroes of this function is the same as solving this equation. In the paragraph before, the zeroes of this function are +1 and −1, so they are the solutions of this equation. We got this equation by subtracting the same thing from both sides, so we also have solutions to the equation we started with, in this case x^{2} = 1. So if we could find zeroes of functions, we could solve any equation.