17 = 23 + 32
A number to the first power is the number itself.
Assuming by "numbers" you mean "digits": 99 9 9 = 81 (in algebra multiplication is not written as it could be confused with the letter x, so two symbols written next to each other are multiplied together) 99 (nine to the power 9) = 387,420,489 99 (the tetration of 9 nine times, ie 9 to the power of 9 to the power of 9 to the power of...to the power of 9) which is extremely large. Also, by using a base for the numbers higher than base 10 (eg hexadecimal = base 16) even higher numbers can be reached.
The answer depends on the power number. If, for example, the power number is -0.5, then there is no rule in real numbers.
Yes, numbers written with exponents are expressed in exponential form. For example, (2^3) represents the number 2 raised to the power of 3, which equals 8. Exponents indicate how many times the base number is multiplied by itself. Thus, any number written in this format is considered to be in exponential notation.
The number that is a repeated factor when written in the power operation is called the base
Yep, it's not a number that can be expressed as a fraction, and must be expressed by some other mathematical operator, such as the square root function. Any number written to a fractional power that cannot be written in whole numbers is considered an irrational number.
An even power. Square numbers have an odd number of factors.
When a number is written as the product of a factor and a power of 10, it is in scientific notation. This format typically takes the form ( a \times 10^n ), where ( a ) is a coefficient (usually between 1 and 10) and ( n ) is an integer that indicates the number of places the decimal point is moved. This representation allows for easier handling of very large or very small numbers.
power.
the number that wins
If you mean the small number, it is a power.
Armstrong numbers are the sum of their own digits to the power of the number of digits.