Since 95 is positive, its square root is real. Only negative numbers have non-real square roots.
That leaves the question of whether it is rational or irrational. An integer's square root can only be rational if it is itself an integer. But 95 is not a perfect square, so it's square root is not an integer.
Therefore the square root is irrational.
Yes
The set of real numbers is divided into rational and irrational numbers. The two subsets are disjoint and exhaustive. That is to say, there is no real number which is both rational and irrational. Also, any real number must be rational or irrational.
Actually there are more irrational numbers than rational numbers. Most square roots, cubic roots, etc. are irrational (not rational). For example, the square of any positive integer is either an integer or an irrational number. The numbers e and pi are both irrational. Most expressions that involve those numbers are also irrational.
real number
No. The sum of an irrational number and any other [real] number is irrational.
Pi. That is an irrational number. Irrational numbers cannot be expressed as a fraction.
The square root of 8 is irrational and real.
It is not a real number.
They are irrational numbers.
It is real and irrational.
Yes, square of 2 is a real number. Real numbers fall into 2 categories, Rational and Irrational. Square of 2 is an irrational number.
The square root of 4 is a whole number, an integer, rational and real.
A real number which is not a rational number is an irrational number.
The square root of 8 over 25 is irrational, and real.
It is a real number, a rational number, an integer.
Real numbers can be rational or irrational because they both form the number line.
Neither. It is not a real number but an imaginary number.
It is an integer. All integers are rational but not irrational. All rational and irrational numbers are real numbers.