29 lines
3 KiB
Markdown
29 lines
3 KiB
Markdown
# Zero
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Zero (0) is a [number](number.md) signifying the absence of a thing we count. It precedes [1](one.md) and follows -1.
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Some properties of and facts about this number follow:
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- It is [even](even.md).
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- It is neither positive nor negative. However in some computer numeric encodings (such as [one's complement](ones_complement.md)) there exist two representations of zero and so we may hear about a positive and negative zero, even though mathematically there is no such a thing.
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- It is a [whole number](integer.md), a [natural number](natural_number.md), a [rational number](rational_number.md), a [real number](real_number.md) and a [complex number](complex_number.md).
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- It is **NOT** a [prime number](prime.md).
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- It is an additive identity, i.e. adding 0 to anything has no effect. Subtracting 0 from anything also has no effect.
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- Multiplying anything by 0 gives 0.
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- Its representation in all traditional numeral systems is the same: 0.
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- 0^*x* (zero to the power of *x*), for *x* not equal to 0, is always 0.
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- *x*^0 (*x* to the power of 0), for *x* not equal to 0, is always 1.
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- 0^0 (0 to the power of 0) is **not defined**!
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- In programming we start counting from 0 (unlike in real life where we start with 1), so we may encounter the term **zeroth** item. We count from 0 because we normally express offsets from the first item, i.e. 0 means "0 places after the first item".
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- It is, along with 1, one of the symbols used in [binary](binary.md) logic and is normally interpreted as the "off"/"false"/"low" value.
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- Its opposite is most often said to be the [infinity](infinity.md), even though it depends on the angle of view and the kind of infinity we talk about. Other numbers may be seen as its opposite as well (e.g. 1 in the context of [probability](probability.md)).
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- As it is one of the most commonly used numbers in programming, computers sometimes deal with it in special ways, for example in [assembly](assembly.md) languages there are often special instructions for comparing to 0 (e.g. `NEZ`, not equals zero) which can save memory and also be faster. So as a programmer you may optimize your program by trying to use zeros if possible.
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- In [C](c.md) 0 represents the [false](false.md) value, a function returning 0 many times signifies an [error](error.md) during the execution of that function. However 0 also sometimes means success, e.g. as a return value from the main function.
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**Dividing by zero is not defined**, it is a forbidden operation mainly because it breaks equations (allowing dividing by zero would also allow us to make basically any equation hold, even those that normally don't). In programming dividing by zero typically causes an error, crash of a program or an [exception](exception.md). When operating with [limits](limit.md) however, we can handle divisions by zero in a special way (find out what value an [expression](expression.md) approaches if we get infinitely close to dividing by 0).
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## See Also
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- [NULL](null.md)
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- [infinity](infinity.md)
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- [one](one.md) |