Study guides

Q: Why is the factorial sign an exclamation mark instead of any other symbol?

Write your answer...

Submit

Related questions

interrobang

It depends, check your owner's manual. It could be that your parking brake is on, or that you are out of oil or some other issue. Your owner's manual will have a listing of the warning signals in the "instrument panel" section.

The exclamation sign in maths means FACTORIAL - multiply the number by all numbers less than it to 1. For Example: 7! means 7 x 6 x 5 x 4 x 3 x 2 x 1 = 5040 same goes with the other non zero positives. In maths, 0! has been assumed to be ONE.

You have to catch the other 26 Unown first.

4 factorial, or 4!, equals 24

It was suggested that the Greek symbol for the letter "P" (Pi) be attached to this mysterious number by William Jones, a Welsh mathematician in the early 18th century. There is no logical explanation as to why this symbol was chosen.

In elementary mathematics, it refers to the factorial function which is defined for positive integers as follows: n! = 1*2*3*...*n In higher mathematics, x! is defined as Gamma(x+1), which extends the concept to other real numbers and complex numbers. But I do not suppose you want to go there - at least, not yet!

An exclamation mark can be used at the end of a declarative sentence to add emphasis to a statement, as in "I can not wait until tomorrow!" or "Wow, we beat the other team!"

It is an exclamation - it really doesn't mean anything other than "wow."

It is an exclamation - it really doesn't mean anything other than "wow."

And the U.S. is the only country in the world which has "associate" degrees. No other country recognises them, so, if you want to work internationally, get a university degree instead.

an ? paragraph is a paragraph that begins with a dot or other symbol

U need to capture every other Unown, then go to veilstone to the cave in south, he will show new area with = question unknown and the exclamation unknown =

used instead of other elements for what?

I don't even think there is a symbol for this..

Yes. 0! = 1 But otherwise, no.

you first have to capture ALL the other unown letters

a an

The Indian symbol for strength is the bear and this is also a common symbol for strength used by other cultures. Another symbol for strength is the hawk.

It could be "voilÃ !" (here!) as a number of other things.

No other states in the US has parishes instead of counties.

Recursion is not the most efficient in this case; but this serves to demostrate the basic principles of recursion. Recursion is really useful in some other cases; it can make problems that otherwise look impossible, to actually seem easy, once you grasp the basic ideas of recursion. 5! (5 factorial), for example, is 1 x 2 x 3 x 4 x 5. This can also be defined as 5 x 4! (5 times 4 factorial). For a useful recursion, there must be an ending condition; in this case, 0! is defined as 1. The Java function looks something like this: int factorial(int number) { if (number == 0) return 1; else return number * factorial(number - 1); } The following is a shorter, but equivalent, version that uses the ternary operator: int factorial(int number) { return number == 0 ? 1 : number * factorial(number - 1); }Recursion is not the most efficient in this case; but this serves to demostrate the basic principles of recursion. Recursion is really useful in some other cases; it can make problems that otherwise look impossible, to actually seem easy, once you grasp the basic ideas of recursion. 5! (5 factorial), for example, is 1 x 2 x 3 x 4 x 5. This can also be defined as 5 x 4! (5 times 4 factorial). For a useful recursion, there must be an ending condition; in this case, 0! is defined as 1. The Java function looks something like this: int factorial(int number) { if (number == 0) return 1; else return number * factorial(number - 1); } The following is a shorter, but equivalent, version that uses the ternary operator: int factorial(int number) { return number == 0 ? 1 : number * factorial(number - 1); }Recursion is not the most efficient in this case; but this serves to demostrate the basic principles of recursion. Recursion is really useful in some other cases; it can make problems that otherwise look impossible, to actually seem easy, once you grasp the basic ideas of recursion. 5! (5 factorial), for example, is 1 x 2 x 3 x 4 x 5. This can also be defined as 5 x 4! (5 times 4 factorial). For a useful recursion, there must be an ending condition; in this case, 0! is defined as 1. The Java function looks something like this: int factorial(int number) { if (number == 0) return 1; else return number * factorial(number - 1); } The following is a shorter, but equivalent, version that uses the ternary operator: int factorial(int number) { return number == 0 ? 1 : number * factorial(number - 1); }Recursion is not the most efficient in this case; but this serves to demostrate the basic principles of recursion. Recursion is really useful in some other cases; it can make problems that otherwise look impossible, to actually seem easy, once you grasp the basic ideas of recursion. 5! (5 factorial), for example, is 1 x 2 x 3 x 4 x 5. This can also be defined as 5 x 4! (5 times 4 factorial). For a useful recursion, there must be an ending condition; in this case, 0! is defined as 1. The Java function looks something like this: int factorial(int number) { if (number == 0) return 1; else return number * factorial(number - 1); } The following is a shorter, but equivalent, version that uses the ternary operator: int factorial(int number) { return number == 0 ? 1 : number * factorial(number - 1); }

Helium, along with the other elements, gets its symbol from the Latin and not from English.

The symbol is §. It looks like two S's on top of each other.

Arddechog is a Welch exclamation that has no direct translation to English. It is used in a fashion similar to "Hey There!" but may be used in other ways at other times.