The real number 5.1255555555555 can be expressed as a decimal, indicating a value slightly greater than 5.125. The repeating part "555555..." suggests that the number can be approximated as 5.1255 with the '5' repeating indefinitely. In fractional form, it can be represented as (5 + \frac{1}{8} + \frac{1}{90}), capturing the repeating decimal.
The square of a real number is always a real number.
Yes, zero is a real number. It is not a counting number, but it is an integer, a rational number, and a real number.
Of course, not only can it be a real number but it is a real number. When you take the square root times itself, the result is a number that is real.
A real number dosen't have to be a rational number as a real number can be rational or irrational i.e the root of 2 is irrational and real. So is (pi).
Any decimal number is a real number.
The square of a real number is always a real number.
The real number in '101.7' is 101. A real number is a positive whole number.
Yes, zero is a real number. It is not a counting number, but it is an integer, a rational number, and a real number.
Nearly any number you can think of is a Real Number. So 8 is a real number.
The other real number is 3/pi. I will bet that was not the real number you had in mind and so is an "other" real number.
a real number is a number that can be rational or irrational
It is a real number, but it is not a whole number
Of course, not only can it be a real number but it is a real number. When you take the square root times itself, the result is a number that is real.
No, it is not a real number.
Yes the number 13297126 is real
If a number is pure imaginary then it has no real component. If it is a real number, then there is no imaginary component. If it has both real and imaginary components, then it is a complex number.
A real number dosen't have to be a rational number as a real number can be rational or irrational i.e the root of 2 is irrational and real. So is (pi).