When calculus books state that 00 is an indeterminate form, they mean that there are functions f(x) & g(x) such that f(x) approaches 0 & g(x) approaches 0 as x approaches 0, and that one must evaluate the limit of

When calculus books state that 00 is an indeterminate form, they mean that there are functions f(x) and g(x) such that f(x) approaches 0 and g(x) approaches 0 as x approaches 0, and that one must evaluate the limit of

Piông chồng up a high school mathematics textbook today and you will see that 00 is treated as an *indeterminate form*. For example, the following is taken from a current Thành Phố New York Regents text <6>:

We reHotline the rule for dividing powers with lượt thích bases:

xa/xb = xa-b (x not equal to 0) | (1) |

Therefore, in order for *x*0 to be meaningful, we must make the following definition:

x0 = 1 (x not equal to 0) | (4) |

Since the definition

*x*0 = 1 is based upon division, & division by 0 is not possible, we have sầu stated that

*x*is not equal khổng lồ 0. Actually, the expression 00 (0 lớn the zero power) is one of several

*indeterminate*expressions in mathematics. It is not possible to lớn assign a value to an indeterminate expression.

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Calculus textbooks also discuss the problem, usually in a section dealing with L"Hospital"s Rule. Suppose we are given two functions, *f*(*x*) & *g*(*x*), with the properties that (lim_x
ightarrow a f(x)=0) & (lim_x
ightarrow a g(x)=0.) When attempting khổng lồ evaluate <*f*(*x*)>*g*(*x*) in the limit as *x* approaches *a*, we are told rightly that this is an *indeterminate form* of type 00 và that the limit can have sầu various values of *f* and *g*. This begs the question: are these the same? Can we distinguish 00 as an indeterminate khung và 00 as a number? The treatment of 00 has been discussed for several hundred years. Donald Knuth <7> points out that an Italian count by the name of Guglielmo Libri published several papers in the 1830s on the subject of 00 & its properties. However, in his *Elements of Algebra*, (1770) <4>, which was published years before Libri, Euler wrote,

As in this series of powers each term is found by multiplying the preceding term by *a,* which increases the exponent by 1; so when any term is given, we may also find the preceding term, if we divide by *a,* because this diminishes the exponent by 1. This shews that the term which precedes the first term *a*1 must necessarily be *a*/*a* or 1; và, if we proceed according to lớn the exponents, we immediately conclude, that the term which precedes the first must be *a*0; and hence we deduce this remarkable property, that *a*0 is always equal khổng lồ 1, however great or small the value of the number *a* may be, and even when a is nothing; that is lớn say, *a*0 is equal khổng lồ 1.

More from Euler: In his *Introduction khổng lồ Analysis of the Infinite* (1748) <5>, he writes :

*az*where a is a constant và the exponent

*z*is a variable .... If

*z*= 0, then we have a0 = 1. If

*a*= 0, we take a huge jump in the values of

*az*. As long as the value of

*z*remains positive sầu, or greater than zero, then we always have sầu

*az*= 0. If

*z*= 0, then

*a*0 = 1.

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Euler defines the logarithm of *y* as the value of the function *z,* such that *az* = *y.* He writes that it is understood that the base *a* of the logarithm should be a number greater than 1, thus avoiding his earlier reference khổng lồ a possible problem with 00.