Wiki User
∙ 14y agox^-1 = 1/x
it just flips the fraction. ex.
3^-1 =1/3
(2/3)^-1 = 3/2
Wiki User
∙ 14y agoIt would be infinity raised to the infinite power and that value raised to the infinite power. netflyer
The value of any nonzero number raised to the zero power will equal positive one (1).
Yes because any number raised to the power of zero is always equal to 1
10 raised to power of 3.8 has a value of 6,309.5734448019324943
By definition, any number (variable or constant) to the power of zero equals 1.
An exponential equation.
The number itself.
It would be infinity raised to the infinite power and that value raised to the infinite power. netflyer
The value of any nonzero number raised to the zero power will equal positive one (1).
Yes because any number raised to the power of zero is always equal to 1
By definition, any number (variable or constant) to the power of zero equals 1.
10 raised to power of 3.8 has a value of 6,309.5734448019324943
Four to the power of one, 41 or 4^1 equals 4. Any number raised to the power of one is that number.
1 billion in number form is 1,000,000,000 or 10 raised to the 8th power.
The value of 10 raised to the power of 9 (109) is 1,000,000,000 or one billion.
Because that value has been established by convention. Any number raised to the power of zero equals one. See the related question.
A decimal number has a base of 10, meaning that from the least significant to the most significant digit in a number the value of the digit increases by a factor of 10. Thus the least significant digit has a value of the digit multiplied by 10 raised to power 0, the next digit to the left (the tens digit) has a value of the digit multiplied by 10 raised to power 1, and so on. If you are considering decimal numbers, then the first digit to the right of the decimal point has a place value of 10 raised to power -1, the next digit to the right has a place value of 10 raised to power -2 and so on. In decimal system (unlike the Roman Numerals) the length of the number also signifies the magnitude of the number and there is a place value for each digit (again unlike the Roman Numerals).